WO2017028150A1 - Separate alarm and overall control module set and ultra-sensing management system based on internet of things - Google Patents

Abstract

The present invention provides a series of solutions based on the internet of things technology, of which the main technical features are: based on the application of wireless recognition technology in the field of separate alarm and overall control, an item control and management module set and system with an intelligent leather purse as a control center ('an intelligent anti-forgetting system', 'an intelligent anti-default system', 'an intelligent household management system', and 'an intelligent biological tracing system') are provided; based on characteristics of the RFID technology and the wireless electromagnetic technology, a systematic solution for electromagnetic environment control and management ('an intelligent electromagnetic monitoring and defending ultra-sensing system') is provided; meanwhile, according to the above modules, systems and solutions, combining with an ET traceable information technology, a solution for comprehensive using big data information of the internet of things ('an intelligent shopping system', 'an intelligent behavior monitoring ultra-sensing education system', 'an intelligent monitoring ultra-sensing aiding survival system', 'a micro-energy interacting ecosystem', and 'an ET aiding communication ecosystem') is provided.

Description

Isolation alarm and collective control module based on IoT and super-perception management system Technical field

The invention relates to RFID technology, wireless communication technology, software and communication interface technology, electronic circuit technology, automatic control technology, mechanical design, ET traceability information technology (including ET system and ET communication information technology), and small hardware manufacturing, leather goods Luggage manufacturing technology.

Background technique

With the development of network communication technology and pervasive computing technology, human production and life are increasingly inseparable from the transmission of data information. Everyone can randomly interact with N contact points on the Internet to obtain data information. Obviously, when After the items around everyone are connected to the Internet, there is data information interaction between them. For the moment, this kind of interaction is more the information interaction between the N touch points on the Internet actively sending to the items (such as information). Detection, cyber attack, remote control or stealing).

Obviously, the tools used for the information interaction mentioned above may be more inclined to some kind of mobile terminal (generally, commonly referred to as "mobile phone") in the industry.

The development of mobile phones to smart phones is one of the products of mobile communication development. Under the joint development of mobile communication and Internet of Things, the items around people are connected to the Internet, and the data information interaction form of N-to-N random transformation of time and space is faced. Its security and accuracy are inevitably a problem that is about to face and is extremely challenging.

As far as the information interaction between a single mobile phone user and the Internet is concerned, asymmetric, spatiotemporal isolation and integrity issues are important issues for network information security issues.

Therefore, it can be foreseen that a single smart phone cannot assume the tool role of IoT data information interaction safely, effectively and completely.

A safe and reliable information interaction technology form is N11N, which is used to replace the conventional idea of N1N (commonly known as: Internet node N-smartphone-object N).

One possible implementation of the above N11N technology form is: Internet Node N - Mobile Phone - Smart Wallet - Object N.

In the implementation manner, the data information interaction between the Internet node N and the mobile phone has begun to take shape in the industry, but there are still many information security problems to be solved.

In the implementation manner, the data information interaction between the mobile phone-smart wallet-object N needs to be supported by the following background technologies:

(1) Item identification technology:

At present, the widely used automatic identification technologies include image feature recognition, barcode, magnetic card, radio frequency identification, infrared recognition, fingerprint recognition or other biological recognition, etc., each of which has its own advantages and disadvantages and applicable occasions. The advantages of RFID technology are: non-contact identification, automation, batch, not easy to damage, can identify high-speed moving targets, easy to operate, low-frequency short-range RFID technology has the advantage of not being afraid of harsh environments such as oil stains and dust, high-frequency long-distance RFID technology can It can be used to track targets such as pallets, vehicles, and animals. In addition, RFID has the advantages of all-weather, reliable and difficult to attack, easy to write and modify. RFID technology has become more and more popular in the fields of item tracking, traceability, anti-counterfeiting, anti-theft systems, automatic production lines, library management, animal identification, access control, parking lot and checkpoint control, logistics and supply chain management control.

RFID system solution composition and technical characteristics:

Common RFID system solutions generally consist of the following components: electronic tags, tag antennas, readers, reader antennas, control modules, interface modules, data management systems, etc. According to the power supply mode of the tag, it can be divided into an active RFID system and a passive RFID system. The corresponding RFID tags can be divided into active tags (powered by the self-contained battery on the tag) and passive tags (labels without batteries, energy by The RF signal emitted by the reader provides two). According to different coupling methods, passive RFID systems can be divided into inductive coupling and electromagnetic reversal. There are two kinds of scattering coupling.

According to the signal category, RFID technology can be divided into: long wave (frequency: less than 135KHz), short wave (high frequency, ie HF, frequency: 13.56MHz), ultrashort wave (UHF, UHF, frequency: 900MHz), microwave (frequency : 2.45 GHz), their reading ranges are: <10cm, <1m, about 10m, and about 2m.

For the advantages and disadvantages of different frequency band RFID systems, only the UHF RFID frequency band mainly used by the present invention (in particular, it is also possible to adopt a combination of low, medium, high, overclocking or microwave segment RFID technology to improve the shielding of electromagnetic pulse emission). , penetration and anti-interference ability to improve the reliability of the reader to detect/read data from the tag are listed as follows: The advantages are long recognition distance, small antenna size, fast transmission speed, non-line-of-sight recognition and orientation recognition. The disadvantage is that countries have different frequency band regulations, and the damage to the human body is still difficult to determine, the transmission power is limited, and it is greatly affected by certain materials.

(2) Wireless communication band planning:

The China Radio Regulatory Commission has already defined the frequency bands used by the RFID business. Since the HF and UHF 2.4 GHz bands used by RFID are basically the international ISM band, the current regulations on the use of RFID in these two bands are basically consistent with the international standards. For the 860-960MHz frequency band, the national regulations are different, which makes countries and regions have different plans for RFID service frequency in this frequency band. According to China's frequency division regulations, 860 ~ 960MHz is mainly used as a fixed mobile service. The frequency usage of China's 860 ~ 960MHz frequency band is listed as follows: 870-880MHz (for CDMA downlink frequency band services), 885-915MHz (for GSM uplink frequency band services) ), 915-917MHz (for centerless walkie-talkie service), 917-925MHz (for point-to-point stereo broadcast link service), 925-930MHz (for aeronautical navigation service), 930-960MHz (for GSM downlink service) .

The ISM band does not require a license, but devices operating in this band are required to comply with the requirements of the corresponding spectrum usage authority for transmit power (less power communication less than 10mW/MHz), antenna gain and spread spectrum. Wireless local area network (WLAN) IEEE 802.11b/g and wireless personal area network (WPAN) IEEE802.15.1 (Bluetooth), IEEE802.15.3, IEEE802.15.4 (Zigbee) and other devices all work in the ISM band. On April 20, 2007, the Ministry of Industry and Information Industry issued the “Trial Provisions for the Application of Radio Frequency Identification (RFID) Technology in the 800/900 MHz Band (Trial)” (No. [2007] No. 205), for 800/ The application of RFID technology in the 900MHz band is as follows: 840.50-844.5MHz, 920.50-924.5MHz (frequency range), 2W (transmit power erp); 840-845MHz, 920-925MHz (frequency range), 100mW (transmit power erp).

(3) Wireless identification technology (RFID technology) standardization process:

The RFID standard system mainly consists of air interface specifications, physical characteristics (conformance testing and performance testing standards such as ISO/IEC 18046, 18047 series standards), reader/writer protocols, coding systems, and data application interface specifications (responsible for processing readers and Various communications between applications, but not involving device interfaces and device management functions), data exchange and protocol standards (such as EPCIS and ONS standards for accessing RFID data over the Internet), data and network security standards (information security) , including: RFID tag self-safety, air interface standard security, RFID reader security, self-security of the network to which the RFID system is connected), radio frequency management regulations, health and safety regulations, sensor interface standards (sensor network and RFID tag interface) Standard), device interface standard (device interface standard for transferring data between applications and readers) and other standards. The International Organization for Standardization (ISO), the US-led EPCglobal, and the Japanese UID Standardization Organization are the pioneers in the development of the RFID standard system. The air interface protocols of the three standard systems of ISO/IEC 18000, EPCglobal and Japan UID are being improved. These three standards are not compatible with each other. The main difference is in the three aspects of communication methods, anti-collision protocols and data formats. The technical gap is not large. EPC Global has completed the Electronic Product Code standard (such as EPC Global class Gen2) and has some dominance in some areas of application.

"Electronic label" has become the main direction of the development of global automatic identification technology in the 21st century, according to the Ministry of Science and Technology of the People's Republic of China, etc. The 15th China Mobile Radio Frequency Identification (RFID) Technology Policy White Paper issued by the 15 ministries and commissions: “The implementation process of RFID technology should be carried out in stages: the first phase of cultivation (2006 to 2008) : Tracking the development of the latest international common technology, combining with key industry applications, developing RFID technology with independent intellectual property rights, formulating corresponding technical standards and application standards according to the national RFID standard system framework, and carrying out application demonstration projects. The second phase of growth (2007) Year to 2012): Break through key technologies of application and industrialization, accelerate the formulation of relevant technical standards and industry application standards, basically form China's RFID standard system, and expand application fields. The third stage of maturity: the formation of the international advanced technology system at the same time, Achieve the wide application of RFID technology and integration with other technologies."

It can be seen that the state has made strategic considerations on the application trends of RFID technology and future growth opportunities. At present, two RFID standards commonly used in China are two ISO standards for non-contact smart cards: ISO14443 and ISO15693. The standard adopted by China's second-generation electronic ID card is ISO14443TYPE B. The anti-collision principle of the communication series command sequence is the main difference between TYBE A and contact IC card. TYBE A is mainly based on the bit collision detection protocol. ISO 15693 uses the wheel homing mechanism and time-sharing method to complete the anti-collision mechanism. The anti-collision mechanism makes it possible to correctly operate multiple cards in the read/write area.

(4) Other related technologies:

In addition to the use of RFID identification technology, the invention also needs to combine necessary control electronic circuits, communication interface standards, automatic control technology, mechanical design, ET traceability information technology (including ET system and ET communication information technology), mobile phone and underlying software development. And small hardware manufacturing, leather goods and luggage manufacturing technology, including control electronic circuits, communication interfaces and technical standards / protocols, mobile phone software and low-level program instructions and other related technologies have been modularized and integrated in the corresponding fields.

Summary of the invention

The IoT-based separation alarm and aggregation control module and the super-sensing management system according to the present invention can be summarized as the following case A: Anti-forgotten smart wallet:

Case A: Anti-Forgotten Smart Wallet

A post-80s entrepreneur, A Jun, is under pressure from his livelihood. He needs to travel all day long in the busy and crowded modern metropolitan area to carry out market development and product technology innovation. He has taken on many business pressures and competitive threats, and also needs to take into account his personal life. Family Harmony. In particular, A regrets that in the business travel of 2014.9.11, A Jun was in the business negotiation with foreign customers, because A’s beard really made the French customer Miss Wang difficult to face up, resulting in The client firmly believes that the decision to postpone the negotiations, the customer Miss Wang exchanged a TG business card with A. Afterwards, A Jun had a profound introspection on this business negotiation. Because of the busy business in the recent period, A Jun realized that his beard was too long in the morning, but because the facilities provided by the hotel were relatively simple, due to the rush of time, A Jun Reluctantly will deal with this business negotiation.

Due to the significant delays in the successful signing of the business contract and the capital flow of the company, the “failures of negotiating with the customers caused by the major omissions of the travel materials” have caused great business development for the entrepreneur A Jun. Obstacles, A Jun constantly speculates on Miss Wang's next business decision. . .

That night, A Jun dialed the family's international long distance and severely asked his wife: "Why my razor is not in the suitcase!", the wife just asked: "The day the pet dog's mouth is out of the door is the sunscreen. Or a razor?", A Jun heard the hang of the phone. . . A Jun is wondering if the other party is angry and hangs up the phone? Or is the phone suddenly powered off? ! Or is the communication signal malfunctioning or being stolen? !

In order to save the lost international travel, A Jun decided to change his itinerary and fly to the Xilin Gol Prairie for an open and enjoyable grassland trip. In the beautiful and rich Xilin Gol Prairie, A Jun once again experienced nature. Beautiful, reminiscent of past events, A Jun always regrets: "I have a theoretical knowledge of how to achieve a great and realistic dream of "making everything better"!" In an accidental opportunity, A Jun had the opportunity to ride the horses of the local herdsmen and talk to the herdsmen B. When A saw that the scale of the pasture was not small, he asked about his operation. The reply of B once again shocked A. Jun Gangyi has to collapse again. There is no shortage of complaints from the grassland herdsmen B: "Don't think that our herdsmen are riding a horse like a stroll every day, and the pressure is great! Every morning and night, the sheep are still in trouble every day. Take the 9.8 days to the present 7 days. There are fewer sheep every day! Now raising sheep is getting thinner and thinner!” A Jun asked: “Why didn’t you raise more cows?” B replied: “The cows are not lost, the grassland is so Big, can't see it! Last year, we raised 450 cows. By the end of the year, we have earned the money. We are grazing cows, don't feed, and the quality of milk is high, but the big group buys milk is uniform. The price is calculated according to the price of the feed milk." A Jun asked: "You can talk to people's theory!" B: "There is no theory, you can't get evidence that your cows only graze every day! People can't Every day, staring at the back of your cow's buttocks, are you saying? Oh, now the country doesn't believe how pure the country's milk is, and the family with a little economic foundation has bought milk from abroad. The big group also uses this. Saying that they have no way, they The milk produced in the grassland is the price. I don’t know if they are using this price, and we can’t say it.” A Jun replied: “That is, that is.” In the past few days in Xilin Gol, A Jun felt strongly Nature is so pure and close, he suddenly realized that such a large grassland, the body absorbs electromagnetic radiation, much less than the bustling city. . .

Sitting on the vast prairie, A Jun chatted with friends and family on several phone calls. . .

When I learned that the scores of the Gemini Geography Test were a mess, A Jun severely criticized: "You, the child, play games all day long, there is no serious image in the dance, and there is never a plan to do homework. You can see this winter vacation. I don't know if I have listened to the teacher seriously in the classroom. The basic formula rules are not backed up. Is it because the teacher didn't teach? Even the society has a lot of teachers lamenting that "the life of the waste oil is eaten, the heart of the Republic!" "Not that basic knowledge is not taught to students!"

On the prairie of the wind and the sun, A Jun Xingxi received a phone call from the grandmother's house in the old revolutionary area of the mountains and rivers, saying that they would like to jointly wish "grandmother's 98th birthday happy!", in addition to the conversation, A Jun unintentionally A set of sunscreen shaped like an electric shaver was pulled out of the bag. . .

For example, the above experience and experience, entrepreneur A Jun believes that many people can feel the same. In summary, people's similar confusion comes down to the following ten aspects:

(1) During the travel process, I often complained when I just left the hotel to open the bag: "This business trip, umbrellas, chargers and razors have forgotten to bring them out." So that when he goes out every day, he just locks the door and goes down the stairs, he will worry about whether he has forgotten some objects, and even need to re-count the inside of the bag and the suitcase. The required items;

(2) Always constantly speculate on the results of the customer's negotiations, whether the customer is perfunctory and further opportunities for negotiation, and whether the client can go to the next negotiation or meeting as scheduled, and so on;

(3) Is it really difficult to manage family affairs? How to discipline family pets? How to manage the flexible and effective management of household assets, especially smart products such as home appliances? How can a wife not even do small things about preparing a razor?

(4) When you go out, the mobile phone is always charged. How to solve it?

(5) How can the pastoralist B's livelihood plan make me a passionate entrepreneur? Are sheep, cattle, and milk really difficult to centralize and trace management?

(6) How to implement traceability quality management from the consumer side for food safety and commodity circulation management?

(7) Is electromagnetic radiation really safe in a prosperous city? Is the more and more popular mobile internet, as well as the exquisite APP and communication ports, and the interlaced wireless electromagnetic wave information transmission, can really ensure information security?

(8) Nowadays, urban life is so rich and colorful, and the socio-economic development is leaps and bounds, and the vicious expansion of the gap between the rich and the poor is hidden. This will undoubtedly have a devastating impact on the custody, education, training and development of the next generation of children;

(9) As China's population ages, the care and health care for the elderly will become a serious and important issue.

(10) In the face of large and criss-crossing aerial wireless electromagnetic communication signals, how to conduct targeted security verification of wireless communication channels will become a problem (especially in the institutional environment of asymmetric control of monopolistic information resources). ? The self-triggered verification mechanism is obviously unrealistic due to the huge demand for facilities such as base stations. Then, how to construct a communication security verification mechanism based on personal instant information security and actively triggering verification?

In response to the above-mentioned ten problems, A Jun developed the IoT-based separation alarm and aggregation control module (module set) and super-perception management system architecture as shown in Figure 1 in combination with practical experience and careful study of related technologies. among them:

Figure 1 shows "Application Scenario 1" and the modules and systems to which it is connected to solve the problem (1);

Figure 1 shows "Application Scenario 2" and the modules and systems to which it is connected are used to solve the problem (2);

Figure 1 shows "Application Scenario 3" and the modules and systems to which it is connected are used to solve the problem (3);

Figure 1 shows "Application Scenario 4" and the modules and systems to which it is connected to solve the problem (4);

Figure 1 shows "Application Scenario 5" and the modules and systems to which it is connected are used to solve the problem (5);

Figure 1 shows "Application Scenario 6" and the modules and systems to which it is connected to solve the problem (6);

Figure 1 shows "Application Scenario 7" and the modules and systems to which it is connected to solve the problem (7);

Figure 25 below, "25501 (Application Scenario 8)" and its connected modules and systems are used to solve the problem (8);

The "26601 (Application Scenario 9)" shown in the lower left of Figure 1 and the modules and systems to which it is connected are used to solve the problem (9);

The "9933717 (Application Scenario 10)" shown in the upper left of Figure 1 and the modules and systems to which it is connected are used to solve the problem (10);

Option 1: For the above problem (1), the technical solution of the solution proposed in “Application Scenario 1” is:

Combine the hard components of MCU module (1), RFID reader module (2), RFID antenna (3), spare RFID tag storage box (4), buzzer (5) in Figure 1 into separate alarms and sets. Control the module and embed the module in the anti-forgotten smart wallet (as shown in Figure 2, its front view, Figure 3, its top view, Figure 4, its front view, Figure 5, its right side view, Figure 6, its rear view, attached FIG. 7 is a left side view thereof, and FIG. 8 is a bottom view thereof. In combination with a related technical protocol (such as a portion with a suffix of 99 in FIG. 1), a smart portable peripheral object control center is constructed.

The peripheral object control center is composed of the above-mentioned separation alarm and collection control module, anti-forgotten smart wallet structure, mobile APP (27 of 27) or mobile phone ETAPP (330 of 261), RFID tag design and attachment scheme ( 88003 Figure 2), and a system of related communication protocols/technical solutions.

The anti-forgotten smart wallet structure is composed of an electronic module (88001), an auxiliary battery compartment (88021), a spare RFID storage box (88002), a self-locking control unit (888067 FIG. 4), and a reinforced storage box (as shown in FIG. 2). 88034 Figure 2), thermal insulation magnetic board (88065 Figure 4), RFID antenna board (88071 Figure 5), transparent plastic sleeve (88033), mobile phone placement box (88080 Figure 7), keychain storage box ((88079 figure) 7), telescopic thread rope (88027), balance member (88019), inner lining cloth (face lining cloth 88040, bottom lining cloth 88010), leather case (88041), bottom holster (88035), bottom zipper and interlining (88011) , the corresponding mobile phone placement box layer belongs to the surface layer zipper and lining), wristband (88042), main battery (88004), control button compartment (88005), lighting/spotlight (88006), micro camera (88007) , item sequence & photo display (88008), mobile phone placement box (888080 Figure 15) and related structural components.

The mobile phone placement box (888080 Figure 15) includes: mobile phone charging terminal (8880801 Figure 15), mobile phone card board (8880802 Figure 15), mobile phone stop unit (8880803 Figure 15), support spacer (8880805 figure) 16), side open plate spring button (88095 Figure 20), side open gap (88096 Figure 20).

The mobile phone charging terminal (8880801) includes the charging socket (88808011), the terminal sliding plate (88808012), the socket changing bolt (88808013), the collecting switch (88808014), the adapter terminal (88808015) as shown in FIG. ), reinforced connecting cable (88808016), auxiliary battery box input terminal (88808017), reinforced flexible cable (88808018).

The mobile phone card board (8880802) includes as shown in FIG. 18: a mobile phone card slot and a heat sink (88808021), a rubber card slot (88808022), and a loose bolt (88808023).

The mobile phone stop unit (8880803) includes: {the charging baffle (88808031) and the anti-collision strip (88808032) of FIG. 19; {as shown in FIG. 21: the stop baffle (88808033); rotating Rechargeable hand valve bolt (88808034, hand valve bolt through the tail tapping or blow molding embedded in the stop baffle.); reinforced plastic clip A (88808035, which is riveted with the hand valve bolt.); reinforced plastic clip B (88808036); clamping nut (88808037, the clamping nut is a perforated design, stringed into and engaged with the 88880034 axis cylinder); buffer spring (88808038, buffer spring stringed into the axis cylinder of 88080034); In the 21st, 88808001 is the outer panel of the mobile phone placement box 888080, and in Fig. 21, 8880803401 is the clamping buffer gap}; {such as the stop baffle (88808033) in Fig. 21, the guide pin A (888080331) and the guide pin are provided on both wings. B (888080332), and loosely mesh with the guide groove A (8880803311) and the guide groove B (8880803321) on the two-wing partition of the mobile phone box 888080, the relaxation tolerance is equivalent to the aforementioned clamping buffer gap; 22 is a front view of the retaining plate clamping scheme of the mobile phone stop unit; as shown in FIG. 23, the retaining plate clamping side FIG. 24 is a connection diagram of a charging hand valve bolt and a charging hand valve telescopic D-type bolt (88808039) attached to the reinforcing plastic clip A, and 888080310 is a D-type bolt. The telescopic spring, 888080311 is a telescopic cavity of the D-bolt.

The related structural member includes: a fastening member (88012 and 88013, 88014 and 88015) connecting the wallet body and the wristband, a zipper head (88017) connecting the upper and lower petals of the zipper strip, and a non-slip pattern (88016) and a coupling buckle. Pair of alloy ring and the bottom layer of the wallet body and the bottom layer (88018), an auxiliary battery holding point (88026) for attaching the auxiliary battery in the auxiliary battery compartment (88021), a surface balance groove (88020) for placing the balance member (88019), and a bottom balance groove (88023), Coupling rivet joints for reinforced storage boxes and transparent rubber sleeves (88028, 88029), metal screws or welding schemes for reinforced storage box cavities and hatches (88032, 88031), and cabins for opening hatches Door-integrated pressing handle (88030), top beam (88024) for locking the door, joint zipper cloth + backing cloth + metal plate (possibly) + bottom holster seam connection or bonding scheme ( 88009), the partition 1 (88039), the partition 2 (88022) for supporting the mobile phone placement box, and the zipper strip (88038; for medium waterproofing) for opening the side of the mobile phone placement box (88045, Figure 3) Grade requirements may be), or for the case of a watertight facing partition A (88043 Figure 3; possible for high waterproof rating requirements; at this time the partition A is wrapped around the stitching stitch (88038), and the phone is placed in the box The top layer (88080 Figure 7) is integrally formed and is affixed to the underlying metal sheet (possibly) when the zipper (88017) is pulled, or used to press sideways The button of the mobile phone placement box (88096 Figure 23; possible for low waterproof level; at this time, the mobile phone is placed on the open side slot (88097 Figure 23)), used to wrap the keychain storage box (88079 Figure 7) The splicing scheme of the buckling elastic cloth (88036), the key ring storage box body and the elastic cloth (88037 Figure 2, 88078 Figure 6).

The related structural member further includes: a support block (88047), as shown in FIG. 3, a partition 3 (88044), a partition 4 (88046), and a partition 2 (88022 and FIG. 2), possibly When making the side-opening mobile phone placement box, the screws (88808041 Figure 15) and the screws (88808042 Figure 15) are attached); as shown in Figure 3, the partition A (88052), the partition B (88053), the partition C (88054); aluminum alloy sheet A (88048) and aluminum alloy sheet B (88051) as shown in Fig. 3; ligament A (88049) made of high-strength wear-resistant leather/plastic material as shown in Fig. 3. And ligament B (88050). The above-mentioned separator A, separator B, and separator C may be integrally formed with the heat-insulating and anti-magnetic plate (88064, FIG. 4, 88065, FIG. 4), and may also be combined with the metal antenna plate (88063, FIG. 4, 88071, FIG. 5). ) It may also be manufactured in one piece with the reinforced storage box (88034 Figure 2). Possibly, the reinforced storage box (88034 Figure 2), the heat-insulating anti-magnetic plate (88065 Figure 4), the metal antenna plate (88071 Figure 5) are integrally formed and hooked to the partition B by fastening bolts (88062 Figure 4) (88053 Figure 3); possibly, the fastening bolts (88062 Figure 4) are designed to be resiliently cushioned to reduce the MCU module (1 Figure 1) and the RFID reader module (Figure 2) that are coupled to the bulkhead B. 1) The vibration. The related structural member further includes: an LED indicator L1 (8880861), an LED indicator L2 (8880871), an LED indicator L3 (8880881) attached to the control button compartment (88005, FIG. 2) in FIG. LED indicator L4 (8880891), LED indicator L5 (8880901), LED indicator L6 (8880911), LED indicator L7 (8880921), LED indicator L8 (8880931), LED indicator L9 (8880941). The above-mentioned LED indicators L1 to L7 are control keyboard buttons C1 (888086, FIG. 8), button C2 (888087, FIG. 8), button C3 (888088, FIG. 8), and button C4 (888089, FIG. 8) attached to the control button compartment. Button C5 (888090 Figure 8), button C6 (888091 Figure 8), button C7 (888092 Figure 8), button C8 (888093 Figure 8), button C9 (888094 Figure 8) correspond one-to-one; They are located at the bottom zipper lining (88055), aluminum alloy sheet B (88056), ligament B (88057), ligament A (88058), aluminum alloy sheet A (88059), surface zipper lining (88060), spare RFID storage. Place the transparencies or openings in the box (88061).

The above-mentioned control button compartment (88005, Figure 2) may be in communication with the MCU module (1 Figure 1) through a technical protocol (4499 Figure 1); possibly, the above-mentioned control button compartment (88005 Figure 2) is replaced with a control panel (607 Figure 1) communicates with the MCU module (1 Figure 1).

The self-locking control unit (888067, FIG. 4) includes the following components as shown in FIG. 13: a sliding joint (88806701), a sliding chute (88806702) attached to the top beam (88024 FIG. 2 or 88806703), and a sliding groove ( 88806711), horizontal beam (88806704) and its associated sliding trough (88806705), rebound rod (88806706), rotating joint (88806707), live lock fulcrum (88806710), counting contact or grating (88806709), counting relay (88806708), live lock shrapnel (88806717), deadlock relay (88806718) and its control piece (88806719), deadlock main gate (88806713), deadlock slave (88806712); Figure 14 is a control action diagram.

The spare RFID tag storage box (4 Figure 1), the spare RFID storage box (88002 Figure 2), the RFID tag design and the attachment scheme (88003) Figure 2 or Figure 10), which may be an equivalent alternative to the RFID tag attacher (401 Figure 1), where:

The RFID tag attaching machine (401 FIG. 1) described above includes the following components as shown in FIG. 9: a handle (40101), a flash/spotlight (40102), a camera (40103), a built-in battery (40104), and an object photo display (40105). ), memo menu sequence display (40107), hook and counter (40106), RFID tag (40108), RFID tag group placement bin (401013), various compatibility identification stickers (99401014, such as: active RFID tags) , passive RFID tags, low frequency / high frequency / ultra high frequency / microwave tags, two-dimensional code, barcode, etc.), RFID tag group bullet exit (401012), automatic attach button (40109), sequence and image generation button (401010 ), the label push button (401011).

The above RFID tag design and attachment scheme (88003, FIG. 2, or as shown in FIGS. 10, 11, and 12) is designed in the manner of the TandG graphic structure of FIG. 10 (88003 FIG. 10), and the teacup in FIG. In the application scenario, Pin represents the attached node (the travel cup in the figure is only used as an example!), where:

(1) Pin1.1, Pin1.2, Pin1.3,. . . Pin1.n represents the attachment point design already in the product prototype design scheme. The label attachment point has been set before the product is shipped or sold, hereinafter referred to as the “commodity design scheme”. The product design scheme includes but is not limited to the following forms. :

Pin1.1 is reserved in the main body of the product;

Pin1.2 is designed with reserved ports or holes at the package mouth of the product (divided into a, b male and female), and the usage scenario is similar to that of Pin1.3;

Pin1.3 design male and female mouths or holes at the seams of the separate parts of the product (divided into a, b male and female);

Pin1.4 TG clamping edge design;

Pin1.5 TG screw design;

Pin1.8 product end TG shape clamping scheme matching component;

Pin 1.9 product end TG pinning solution matching components ((Applications such as: textiles);

Pin1.10 product end TG retraction pinning scheme matching component (application occasions such as: paper documents, documents);

Pin1.11 product end TG sticky buckle, metal / alloy / plastic fastening fastener program.

(2) Pin2.1, Pin2.2, Pin2.3,. . . Pin2.n represents the label attachment point that the product is not designed at the time of delivery and sale. The label attachment point added by the consumer itself is hereinafter referred to as “additional attachment scheme”. The additional attachment scheme includes but is not limited to the following forms ( 10, FIG. 11, and FIG. 12 is a partial enlarged view of FIG. 11):

Pin2.1 conventional adhesive patching scheme (flat);

Pin2.2 winding scheme (divided into a, b male and female winding lines, the whole is flat);

Pin2.3 perforation scheme (divided into a, b, c master-slave and anti-recession members, the whole is flat);

Pin2.4 TG clamping scheme (divided into a, b screw, nut part, the whole is a vertebral column member);

Pin2.5 TG tapping scheme (the whole is a vertebral column member);

Pin2.6 auxiliary material attachment program;

Pin2.7 temporary winding scheme (divided into a, b master-slave winding);

Pin2.8 TG shape clamping scheme (divided into a, b body and attached body, the whole is flat);

Pin2.9 TG needle solution (for textiles, overall flat);

Pin2.10 TG retraction needle solution (for paper documents, documents, divided into a, b body and attached body, the whole is flat);

Pin2.11 TG sticky buckle, metal / alloy / plastic fastening fastener program.

In the precision structural parts involved in the above Pin1 and Pint2, the anti-breakage line (such as Pin2.2a, Pin2.2b) or the connecting member or material refers to the RFID anti-breaking algorithm mechanism (or similar active anti-pre-alarm alarm). Mechanism of signal sensing structures or dielectrics.

Separate alarm and set control module, which is composed of MCU module (1), RFID reader module (2), RFID antenna (3), spare RFID tag storage box (4), buzzer (5), etc. in Figure 1. The components are combined, and the combination thereof is combined with the related management system and related technical protocols to implement the functions of the application scenario 1, the application scenario 2, the application scenario 3, the application scenario 4, and the application scenario 5, as shown in FIG.

The technical features of the module and management system for the application scenario 1 are as follows:

The MCU module (1) receives the pre-input command of the mobile APP (or "memo menu") (27) through the electronic technology protocol (5399), the communication module (25), and the communication technology protocol (2899) to form an execution instruction. The electronic technology protocol (5899) transmits the execution instructions to the corresponding units of the RFID reader module (2) to form an RFID tag inspection command, and the RFID reader/writer (2) passes the data information interaction protocol (4799) and the RFID antenna (3). Co-execute the RFID tag inspection instructions.

The above RFID tag inspection instructions also require the following technical solutions:

(1) RFID tag i1 (801), RFID tag i2 (901), RFID tag i3 (1001), and RFID tag i4 (1101) must be manually stored by the user from the spare RFID tag of the smart wallet (88002, Figure 2) Removed and attached to the wallet (803), key fob (903), mobile phone (1003), object by label attachment scheme 80299, label attachment scheme 90299, label attachment scheme 100299, label attachment scheme 110299 4 (1103). The RFID tag (1201) similar to the above case is also attached to the object n (1203) according to a similar scheme (120299) and communicates with the RFID antenna (3) or the filter antenna (33301) through the communication technology protocol (1299). . .

(2) In the implementation of the RFID tag inspection command, the reflection coupling signals (899, 999, 1099, 1199, 1299) modulated and demodulated by the RFID antenna (3) are technically compatible with ISO/IEC18000-1 and ISO/ IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ), EPC Class1Gen2, UID Center, China RFID coding system, one or more of a certain wireless communication system.

(3) The RFID tag serial number attached to the wallet (803), key fob (903), and mobile phone (1003) is one-to-one corresponding to the serial number in the memo menu (27), usually: memo menu (27) The "object entry sequence---RFID tag sequence" is one-to-one correspondence. The system defaults to: memo menu object 1---RFID tag i1; memo menu object 2---RFID tag i2, memo Menu item 3---RFID tag i3. When the user inputs the object name of the memo menu and attaches the RFID tag to the object, the one-to-one correspondence of different "tags---objects" may be selected according to the preference, and the application is not limited in this respect.

(4) The label attachment scheme 80299, the label attachment scheme 90299, and the label attachment scheme 100299 described above, the technical features of which are:

The smart wallet user takes out the RFID tag (88003) from the spare RFID tag storage box (88002, FIG. 2), attaches the tag to the corresponding object according to the corresponding scheme, and presses the button C1 (888086, FIG. 8) to enter the label sticking action. To the MCU module (1), the label sticking action entry refers to the data query interaction protocol (4899 and 5899), which is jointly performed by the RFID reader module (2) and the MCU module (1), and the MCU module (1) Organize the temporary entry information and transfer the input information to the mobile APP (27) through 5399, 25, 2899 at regular or real time. The mobile APP displays the status of the label entry (or attachment) in real time or in real time (for example: at In the memo menu, labels are attached in bright tones, and labels are not attached in dark tones.

The module and management system in the application scenario 1 mentioned above, the separation alarm and the centralized control function are implemented by the following technical solutions:

Alarm and centralized control instructions generation mechanism:

The generation mechanism of the alarm and centralized control instructions is mainly issued by the MCU module (1). The MCU module (1) register stores the patrol control instruction set. In the algorithm of the patrol control instruction set, the control element is composed of the following information elements:

The preset patrol time in the memo menu of one of the RFID tags (801, 901, 1001) and the reference time provided by the MCU module clock, two times The degree of deviation of the value (△T);

The extent of the inspection range of the RFID tag (801, 901, 1001) away from the RFID reader module (2) (ΔG);

The damage condition (State.Tag) of one of the RFID tags (801, 901, 1001);

Alarm signal design

The display scheme of the alarm signal may be one of the following ways or a combination of several of them:

The flashing rule of the light provided by the LED indicator group in panel 607 (Fig. 1) is characterized by:

A parallel high level signal (4499) is sent from the MCU module (1) to the panel 607, and the LED indicator on the control panel 607 flashes in accordance with the rule.

Generally, at least 10 LED indicators on the control panel 607 are set, such as: 7.0, 7.1, 7.2, 7.3, 7.4, 7.5, 7.6, 7.7, 7.8, and 7.9; the numerical relationship of the display functions is: the indicator 7.1 represents an object. 1 (tag sequence i1), indicator light 7.2 represents object 2 (tag sequence i2), and indicator light 7.3 represents object 3 (tag sequence i3). . . The indicator light 7.9 represents the object 9 (tag sequence i9); the indicator light 7.0 represents that the panel is being displayed in combination (flashing display); wherein the technical feature of the flashing display is: for example, displaying the object No. 123 (tag sequence i123), indicating Light 7.0 lights up, 7.1 lights up for 2 seconds, then 7.1, 7.2 lights up for 2 seconds, then 7.1, 7.2, and 7.3 light up for 2 seconds at the same time. When the three digits are displayed, 7.0 goes out. A display cycle is completed.

The buzzer alarm audio emitted by the buzzer (5) is characterized by:

A high level signal (4399) is sent from the MCU module (1) to the buzzer (5), which issues a continuous alarm audio.

C. Image information displayed by the combination of the item sequence & photo display (88008) or 40107 & 40105, the technical features are:

The MCU module (1) interacts with the RFID reader module (2) through the technical protocol (5899), and the RFID reader module (2) attaches the RFID tag to the RFID tag through the technical protocol (4899). The memo menu sequence display (40107 Figure 9) and the object photo display (40105 Figure 9) transmit video signals. In particular, the memo menu sequence display (40107 Figure 9) and the object photo display (40105 Figure 9) in the RFID tag attacher (401) may be replaced by the item sequence & photo display (88008) and embedded in the smart wallet in. D. A dynamic video or audio alarm signal is generated by the mobile APP (memo menu) (27), and its technical features are:

The MCU module (1) modulates the signal through the technical protocol (5399) and the communication module (25), and transmits the signal to the mobile phone APP according to the technical protocol (2899), and the dynamic video or audio alarm signal generated by the mobile APP is usually by the memo menu. In the form, the serial number, the display line, and the corresponding detailed information bullet window corresponding to the alarm object (for example, if the pre-recorded tour command is "10 minutes in advance", the detailed information bullet window may present a text alarm message "also There are 10 minutes to prepare the item").

Centralized control action design

The centralized control action is mainly completed by the deadlock relay (88806718) and the counting relay (88806708) in the self-locking control unit (Fig. 4 of 888067). The former completes the signal sent by the receiving MCU module (1) by controlling the meta-information interaction protocol (88806799). The latter sends feedback information to the MCU module via the Feedback/Input Meta-Interaction Protocol (888067992). The self-locking control unit completes the lock control and the number of opening and closing times of the door of the reinforced storage box (88034 and FIG. 2) through the components of FIG. 13 and through the above-mentioned communication mechanism.

First, the interface protocol of the alarm, collection control meta information and inspection control instruction set is as follows:

The system contract rules are as follows:

Rule 1: <Dir i> represents the MCU binary operator. Where: <Dir i> is equal to zero, representing the output low potential (0), designated as no work; <Dir i> is equal to non-zero, representing the output high potential (1), designated as work.

Rule 2: REG0.TagScanFre: represents the default value of the instruction set, which refers to the default patrol frequency specified by the MCU module (1 Figure 1) according to the TAG port occupancy of the RFID reader module (2 Figure 1).

Rule 3: REG1.TagCount: represents the instruction set Tag counter, which refers to the TAG port occupancy according to the RFID reader module (2 Figure 1). The response characteristics are as follows: A and B:

A. The following control element information is received by the MCU module (1 Figure 1) through the feedback/input meta-information interaction protocol (888067992):

(1) The pulse high level signal of the “label attached” button C1 (888086 Fig. 8), the agreement:

One frame represents: REG1.TagCount plus 1; two consecutive frames represent: REG1.TagCount minus 1; other frame information is unresponsive);

(2) "Cancel program automatic inspection" button C2 (888087 Figure 8) pulse high level signal, the agreement:

One frame represents the last stack of data in the REG1.TagCount register; two consecutive frames and above represent: the register backs up the current REG1.TagCount data, and then sets the current stack to zero;

(3) The pulse high level signal of the “deactivate alarm” button C3 (888088 Fig. 8), the agreement:

One frame represents: the register restores the latest stack data of REG1.TagCount; two consecutive frames and above represent: the register backs up the current REG1.TagCount data, and then sets the current stack to zero;

(4) The pulse high level signal of the "Networking Patrol" button C4 (888089 Figure 8), the agreement:

One frame represents: the register restores the latest stack data of REG1.TagCount; two consecutive frames and above represent: back up the current register data, and then push the current register data to REG1Add1.TagCount);

The above REG1Add1.TagCount refers to the value of the tag information stored by the auxiliary reader module (wall-mounted type) (13301 Figure 1) register through the information exchange protocol (1330299).

The "networking inspection" described above also requires the cooperation of the following technical solutions:

Set the filter antenna (33301 Figure 1) at the door of the residence or the door frame, fixed bracket, household products or other building body of the main gate, and pass the technical agreement (1330399 Figure 1) and the auxiliary reader module (wall-mounted) ( 13301) Implement data information interaction.

The above-mentioned data information interaction between 13301 and 33301 is used to implement "screen scanning" when separating and collecting management of household objects and portable objects. In particular, "screen scan" is performed by a "home set" consisting of a micro base station set (9933001) and a secondary reader module (wall mount type) (13301) composed of smart wallets between family members, MCU module (1) Implement "family set" control by command/function order.fam.listdir.

The default permissions of the above command/function order.famlistdir are generally specified as the top manager (parent) in the family.

The above-mentioned filter antenna (33301) may be designed as an electromagnetic transmitting antenna of the same size as the door frame, and embedded or adhered to the door frame (inside of the house), or may be designed to be rigid with the size of the trunk/bag/bag opening or Flexible attachment, at this time the auxiliary reader module (13301) is mounted on the trunk/bag/bag.

(5) The pulse high level signal of the “screening reduction” button C5 (888090 Fig. 8), the agreement:

One frame represents no response; two frames represent no response; three frames and above represent push current register data to REG2.app, and the operation is performed by the MCU: REG3.app.TagCount=REG3.app.TagCount-REG2.app.TagCount)

The above REG2.app refers to the value (memory tag sequence) pushed and registered in the register 2 of the MCU module by the memo menu.

In particular, the above-mentioned screening function, when the smart wallet is close to the auxiliary reader module (wall-mounted type) (13301), the buzzer (5) in the smart wallet emits a prompt tone "Do you want to conduct a network inspection?", and After receiving the confirmation signal of the "Networking Patrol" button C4 (888089 Figure 8), the MCU module (1) executes order.simpleload.

The above buzzer (5) may be replaced by a function-enhanced speaker.

The above order.simpleload is used for phase separation to manage home objects and portable objects.

When going out and going through the gate, the smart wallet asks "Is the network centralized control?" through the proximity mechanism of 2 and 13301 mentioned above. After receiving the C4 confirmation signal, the MCU module executes the order.integload command/function.

The above order.ntegload is used for phased integration to manage home objects and portable objects.

(6) The pulse high level signal of the “Search” button C6 (888091 Fig. 8), the agreement:

One frame represents no response; two frames and above represent the MCU to perform the operation: REG4.search.TagCount=REG5.alarm.TagCount,

ReaREG.scan.TagCount={REG4.search. Tag Sequence 1, REG4.search. Tag Sequence 2, REG4.search. Tag Sequence 3. . . , REG4.search. tag sequence i}

The above "ReaREG.scan" refers to a register unit attached to the RFID reader module (2, FIG. 1).

(7) "Voice broadcast" button C7 (888092 Figure 8) pulse high level signal, the agreement:

One frame represents: push the REG1.TagCount value to the MCU module and perform the voice announcement function; other frames are not responding.

(8) The pulse high level signal of the “Instant Patrol” button C8 (888093 Figure 8), the agreement:

One frame represents: The MCU performs the following operation: ReaREG.scan.TagCount=REG1.TagCount; other frames are unresponsive.

(9) The pulse high level signal of the “all inspection” button C9 (888094 Fig. 8), the agreement:

One frame represents: The MCU performs the following operations: Rea REG.scan.TagCount={REG6.app.1.TagCount, REG6.app.2.TagCount, REG6.app.3.TagCount,. . . , REG6.app.i.TagCount}; other frames are not responding.

(10) Pulse high level signal of C6+C7 ("previous broadcast" key combination), agreement:

Combine one frame to represent: MCU execution: REG7.Notice.TagCount=REG8.app.1;

Combining consecutive frames means: MCU execution: REG7.Notice.1.TagCount=REG8.app.1,

REG7.Notice.2.TagCount=REG8.app.2, REG7.Notice.3.TagCount=REG8.app.3,. . . ,

REG7.Notice.i.TagCount=REG8.app.i; other combined frame MCUs are not responding.

(11) Pulse high level signal of C6+C9 ("export list" key combination), agreement:

Combine one frame to represent: MCU execution:

REG9.Print.1.plan.TagCount=REG10.app.1,REG9.Print.2.plan.TagCount=REG10.app.2,REG9.

Print.3.plan.TagCount=REG10.app.3,. . . , REG9.Print.i.plan.TagCount=REG10.app.i;

REG11.Print.1.alarm.TagCount=REG12.alarm.1, REG11.Print.2.alarm.TagCount=REG12.alarm.2, REG11.Print.3.alarm.TagCount=REG12.app.3,. . . , REG11.Print.i.alarm.TagCount=REG12.alarm.i; other combined frame MCUs are not responding.

B. Or receive the control meta information of the mobile APP (27) by the MCU module (1 Figure 1) through the technical agreement (2899) (such as: "tag attachment", "cancel program automatic inspection", "deactivate alarm", " Networking inspection, "screening", "searching", "voice broadcast", "instant inspection", "all inspections", "pre-announcement", "export list").

Rule 4: Order: function name and entry;

Rule 5: TAG ABC _n : represents the tag identifier, the A field represents the data read and write form of the tag, the B field represents the power mode of the tag, the C field represents the communication technology form of the tag, and n represents the tag serial number.

usually:

The A field has two forms: o and a (read-only and readable and writable);

The B field has two forms, n and s (passive and active);

The C field usually has two characters, 00 represents the label of the technical form of 860-960MHZ; 01 represents the label of the technical form of 430MHZ; 02 represents the label of the technical form of about 27MHZ; 03 represents the label of the technical form of 6-14MHZ; The label of the technical form of 125KHZ; 05 represents the label of 2.45GHZ and above; 06 represents the label of a wireless communication system; and 07 represents the label of a certain electromagnetic detection communication system.

For example: TAG on00 _i : represents a non-readable and writeable passive tag sequence; TAG an00 _i : represents a readable and writable passive tag sequence.

Rule 6: Order i1, i ₂ , i ₃ , . . . , i _n : represents an instruction/function for a non-readable tag operation; Order I ₁ , I ₂ , I ₃ , . . . , I _n : represents an instruction/function for a readable and writable tag operation;

Rule 7: OUTPUT.TEL.APP(i): represents the APP communication interface of the module;

Rule 8: OUTPUT.TEL.TAG(I): An interface operator representing a readable and writable tag;

Rule 9: OUTPUT.TEL.APPR: represents the device-side RFID control compatible interface;

Rule 10: Time: represents a time control character; Class.TimeTAG: a class label at the same time;

Rule 11: Geo: represents the geographical (or distance) separation degree control character of the controlled object set; Class.GeoTAG: the same regional class label;

Rule 12: Local: represents the alarm distance limit control character of the controlled object set from the RFID reader module; Class.LocalTAG: the same area control degree label;

Rule 13: Stand.Time: represents the base time control character of the MCU timing;

Rule 14: Order.LinkR: The instruction/function called when networking with the auxiliary RFID reader module;

Rule 15: Order.LinkM: The instruction/function called when networking with the Internet Interface Module;

Rule 16: Order.LinkET: The instruction/function called when networking with the ET communication network interface;

Rule 17: Order.ET: an instruction/function that is output by the ET communication interface/protocol (31) to the lower computer MCU module (1) and called by the latter;

Rule 18: Order.ET.MA: an instruction/function that is output by the ET communication interface/protocol (31) to the lower-machine time domain check/collector (31099) and called by the latter; for the gravity acceleration micro-sensor ( 31002) Monitor/measure the instantaneous gravitational acceleration by the geomagnetic field effect, and then check and collect the real-time time and latitude and longitude, and map it to the ET logic model.

Rule 19: Order.ET.MB: The instruction/function called by the MCU module (1) to the lower computer RFID reader module (2) and the electromagnetic radiation detection analysis and monitoring module (30), and the latter two are called. Used for time domain calibration/collector (31099) to check and collect real-time time and latitude and longitude for instantaneous purification/equilibrium of the external ambient magnetic field (or disturbing magnetic field).

Rule 20: Order.Search: An instruction/function that is output by the MCU module (1) to the lower-position RFID reader module (2), and the latter performs the tag tour.

Rule 21: Order.Notice: An instruction/function that is output by the MCU module (1) to the in-module register REG.MEDIA, and the latter performs a voice announcement.

Rule 22: Order.Print: The MCU module (1) outputs the in-module register REG.Pint, and the latter executes the "list report generation" instruction/function.

Rule 23: Order.scan i: MCU module (1) to the lower computer RFID reader module (2) output, and the instruction/function called by the latter;

Rule 24: Order.app i: The instruction/function that the mobile APP (27) outputs to the lower computer MCU module (1) and is called by the latter;

Rule 25: Input.app i: refers to the function receiving the parameter/signal transmitted by Order.app i;

Rule 26: Input.con i: refers to the function/signal transmitted by the function receiving control panel (607 Figure 1, or 88005 Figure 2);

Rule 27: Process Control i: refers to the stack data of REG.PC;

Rule 28: DIR.TIME: time operator;

Rule 29: DIR.Geo: Regional Operator;

Rule 30: OBJ.TAG i _n : attach operator for unreadable and writable tags; OBJ.TAG I _n : attach operator for readable and writable tags;

Rule 31: Req.X.i: requirement tag; Req.TIME.i, representing the time of demand; Req.Geo.i, representing the degree of geographical separation of requirements;

Req.DELTATIME.i, representing the warning time of demand;

Rule 32: order.sendlist: push the list of external memory lists;

Rule 33: order.recelist: receives an external memory list;

Rule 34: Order.public.list: Derived list, the master program performs intelligent fuzzy matching of objects, time, region and itinerary events according to ET perceptual information elements;

Rule 35: Order.prviate.list: Execute the inheritance list, and the master program combines the existing time, region, and itinerary events to intelligently match the collected object information according to the derived list;

And TBC3.

The above TBC3 refers to extending the corresponding instruction/function rules as needed.

Second, the instruction algorithm structure list

In general, the Order and Input instruction segments are communicated and executed by the host computer program (mobile phone APP) or the control panel and the MCU module (for example, the 80C51 series chipset); the Process Control instruction segment is composed of the MCU module and the RFID reader module (for example, the M6E). , AS3992, EM4298, EM9209, R1000, etc.) communicate and execute; Output: The instruction segment is communicated and executed by the MCU module with the peripheral (or its own) circuit interface or port.

Third, the basic instruction set

Order.scan0:

{

Input.app 0: {Req.TIME.0=****Y**M**D**H**Min**S, Req.DELTATIME.0=**H**Min**S;

OBJ.TAG i1;OBJ.TAG i2;OBJ.TAG i3<<REG1.TagCount++>>;REG0.TagScanFre=Input.app 1

}

Process Control0: <Dir1 DIR.TIME{Stand.Time>==DIR.TIME{Req.TIME.0-Req.DELTATIME.0}}>;

<Dir2(Input.app TagCount-<<REG1.TagCount++>>)>{[Geo:(Objet:TAG 1,TAG 2,TAG3)]<Dir2>;

[Local:(10m)]}<Dir3>. }

Output0:{

Dir1=0, Dir2=0, Dir3=0:<OUTPUT 0=1; OUTPUT 1=0; OUTPUT 2=NA; OUTPUT TEL0=1; OUTPUT

TEL1=ELSECONT;>.

Dir1=0, Dir2=0, Dir3=1:<OUTPUT 0=NA; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=0; OUTPUT

TEL1=ELSECONT;>.

Dir1=0, Dir2=1, Dir3=0:<OUTPUT 0=NA; OUTPUT 1=NA REQ; OUTPUT 2=NA; OUTPUT TEL0=1; OUTPUT

TEL1=ELSECONT;>.

Dir1=0, Dir2=1, Dir3=1:<OUTPUT 0=0; OUTPUT 1=1; OUTPUT 2=NA; OUTPUT TEL0=0; OUTPUT

TEL1=ELSECONT;>.

Dir1=1, Dir2=0, Dir3=0:<OUTPUT 0=1; OUTPUT 1=0; OUTPUT 2=NA; OUTPUT TEL0=1; OUTPUT

TEL1=ELSECONT;>.

Dir1=1, Dir2=1, Dir3=1:<OUTPUT 0=1; OUTPUT 1=1; OUTPUT 2=NA; OUTPUT TEL0=1; OUTPUT

TEL1=ELSECONT;>. }

}

Order.scan1:

{

Input1: {ReqT0=****Y**M**D**H**Min**S; Req△T0=**H**Min**S;TAG123 PASTE<REG>;TAG123

SETUP<REG>;SCAN Fre.=**Min**s<REG>;[ReqT1=****Y**M**D**H**Min**S;Req△T1=**H **Min**S;TAG4

POSTE<1>;TAG4 SETUP<1>;SCAN Fre.=**Min**s<REG>;]<Order0>. }

Process Control1:{[Time:(ReqT1)-(Req△T1)=Stand.Time]<Dir4>};{[Geo:(Objet:TAG 4)];[Local:

(10m)]}<Dir5>. }

Output1:{

Dir4=0, Dir5=0:<OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT;OUTPUT TEL1=0;>

Dir4=0, Dir5=1: <OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT TEL1=0;

Dir4=1, Dir5=0:<OUTPUT 0=1; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT TEL1=1;

Dir4=1, Dir5=1: <OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT TEL1=0;>}

}

Order.scan2:

{

Input2: {ReqT1=****Y**M**D**H**Min**S; Req△T1=**H**Min**S;TAG123 PASTE<REG>;TAG123

SETUP<REG>;SCAN Fre.=**Min**s<REG>;[ReqT2=****Y**M**D**H**Min**S;Req△T2=**H **Min**S;TAG5

POSTE<1>;TAG5 SETUP<1>;SCAN Fre.=**Min**s<REG>;]<Order0><Order1>. }

Process Control2: {[Time:(ReqT2)-(Req△T2)=Stand.Time]<Dir6>};{[Geo:(Objet:TAG 5)];[Local:

(10m)]}<Dir7>. }

Output2:{

Dir6=0, Dir7=0:<OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT TEL1=0;

Dir6=0, Dir7=1: <OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0= OUTCONT; OUTPUT TEL1=0;

Dir6=1, Dir7=0:<OUTPUT 0=1; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0= OUTCONT; OUTPUT TEL1=1;

Dir6=1, Dir7=1: <OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0= OUTCONT; OUTPUT TEL1=0;>}

}

Order.scan i:

{

Inputi: {ReqT(i-1)=****Y**M**D**H**Min**S; Req△T(i-1)=**H**Min**S; TAG123 PASTE<REG>;TAG123

SETUP<REG>;SCAN Fre.=**Min**s<REG>;[ReqTi=****Y**M**D**H**Min**S;Req△Ti=**H **Min**S;

TAG(i+3)POSTE<1>;TAG(i+3)SETUP<1>;SCAN Fre.=**Min**s<REG>;]<Order0><Order1>...<

Order(i-1)>. }

Process Controli: {[Time:(ReqTi)-(ReqΔTi)=Stand.Time]<Dir(2i+2)>};{[Geo:(Objet:TAG(i+3))];

[Local:(10m)]}<Dir(2i+3)>.

Outputi: {

Dir(2i+2)=0, Dir(2i+3)=0:<OUTPUT0=0;OUTPUT1=NA;OUTPUT2=NA;OUTPUT TEL0=OUTCONT;OUTPUT TEL1=0;>

Dir(2i+2)=0, Dir(2i+3)=1:<OUTPUT 0=0;OUTPUT 1=NA;OUTPUT 2=NA;OUTPUT TEL0=OUTCONT;OUTPUT

TEL1=0;>

Dir(2i+2)=1, Dir(2i+3)=0:<OUTPUT 0=1; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT

TEL1=1;>

Dir(2i+2)=1, Dir(2i+3)=1:<OUTPUT 0=0;OUTPUT 1=NA;OUTPUT 2=NA;OUTPUT TEL0=OUTCONT;OUTPUT

TEL1=0;>}

}

Order.scan I:

{

Input I: {ReqT(I-1)=****Y**M**D**H**Min**S;Req△T(I-1)=**H**Min**S ;TAG123PASTE<REG>;TAG123

SETUP<REG>;SCAN Fre.=**Min**s<REG>;[ReqTI=****Y

**M**D**H**Min**S;Req△Ti=**H**Min**S;TAG(I+3)POSTE<NA>;TAG(I+3)SETUP<OUTPUT APPR>;SCAN

Fre.=**Min**s<REG>;]<Order0><Order1>...<Order(I-1)>. }

Process Control I: {{[Time:(ReqTI)-(ReqΔTI)=Stand.Time]<Dir(2I+2)>};{[Geo:(Objet:TAG

(I+3))];[Local:(10m)]}<Dir(2I+3)>. }

Output I:{

If

{Dir(2I+2)=0, Dir(2I+3)=0:<OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT; OUTPUT

TEL1=0; Dir TAG(I+3)=0; OUTPUT TEL TAG(I+3)=0>}

Else if{Dir(2I+2)=0, Dir(2I+3)=1:<OUTPUT 0=0;OUTPUT 1=NA;OUTPUT 2=NA;OUTPUT TEL0=OUTCONT;

OUTPUT TEL1=0; Dir TAG(I+3)=0; OUTPUT TEL TAG(I+3)=0>}

Else if{Dir(2I+2)=1, Dir(2I+3)=0:<OUTPUT 0=1; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT;

OUTPUT TEL1=1; Dir TAG(I+3)=0; OUTPUT TEL TAG(I+3)=0>}

Else if{Dir(2I+2)=1, Dir(2I+3)=1:<OUTPUT 0=0; OUTPUT 1=NA; OUTPUT 2=NA; OUTPUT TEL0=OUTCONT;

OUTPUT TEL1=0; Dir TAG(I+3)=1; OUTPUT TEL TAG(I+3)=1>. }

}

And TBC1.

The above-mentioned TBC1 refers to the high-level programming language and the bottom layer compiled according to the technical solution described in the problem (1)-question (10) proposed by A Jun according to the list of the main program components of FIG. 25 and FIG. Software flow chart and program listing for assembly language. The language may be developed based on the C language and based on the C51 family of microcontroller instruction languages, and the invention is not limited in this respect.

The above modular system consisting of 1, 2, 3 and related components and protocols is used to implement the "Intelligent Anti-Forgetting System".

Option 2: For the above problem (2), the solution proposed in "Application Scenario 2" is characterized by:

Smart wallet users A and B submit TG business cards to each other during business communication (1303, Figure 1). When the contract items mentioned in the business communication do not leave the “committed deliverer” at that time, the “committed deliverer” smart wallet The alarm will be "on the time", possibly, the MCU module (1) will remind the "committed deliverer" via the mobile APP (27) to send a text message or call "reservation recipient".

In particular, when the TG business card has been submitted to the other party and promises the time for the next communication, the smart wallet performs a patrol of the RFID tag iTG after the "time" arrives, and sends an alarm signal to the buzzer (5), At the same time, the centralized control signal is sent to the centralized control port (8880671) (the wallet performs the deadlock function on the reinforced storage box (88034 Figure 2)). Possibly, after the "committed deliverer" presses the "deactivate alarm" button C3 (888888, Figure 8), the mobile APP (27) will push the text message to the other party's mobile phone.

The above TG business card (1303 Fig. 1) is characterized in that the RFID chip/tag (88003 Fig. 10) is embedded/produced (in accordance with the technical standard 130299) in a personal business card, 1, 2, 3 and a smart wallet assembly system. Used to achieve the "Intelligent Anti-default System".

Option 3: For the above problem (3), the technical solution of the solution proposed in “Application Scenario 3” is:

According to the combination of one or more additional attachment schemes (140299) in FIG. 10, FIG. 11, and FIG. 12, the RFID tag I2 (1401) is attached to the pet (1403), and the tag I2 (1301) passes the communication technology. The protocol (1399) and 1, 2, 3 modules form a separate alarm and aggregation control unit; or through the technical protocol (1330399), the reader module (13301), the communication technology protocol (1330299) and the 1 module communication monitoring (possibly, Joint communication monitoring with the distance monitoring module (2550499).

The RFID tag I2 (1401) described above may also be replaced or supplemented by the RFID tag Icn (2001) for more stringent care of the pet. For daily home appliances and fixed assets, the RFID tag In (1501) can be attached or integrated into the corresponding smart home products (1503) through the attaching scheme (150299) through a scheme similar to the above, and they pass the 1599 technology. The protocol interacts in real time with the RFID antenna (3) and the filter antenna (33301, typically the filter antenna integrated device on the door frame, mounting bracket, home product or other building).

The above-mentioned real-time communication interaction is composed of 1, 2, 3, and 13301 modules, and forms a "home intelligent management system" that combines travel forgetting, home security, and home object management functions.

Option 4: For the above problem (4), the technical solution of the solution proposed in “Application Scenario 4” is:

Attach the RFID tag IETener.U1 (1901 Figure 1) a foot to the auxiliary battery box input terminal (88808017 Figure 17) according to the attachment scheme Pin1.3a or Pin1.2a (Fig. 10), and the RFID tag IETener.U1 (1901) Figure 1) b foot attached to the auxiliary battery output port according to the attachment scheme (190299, this time with Pin1.3b or Pin1.2b (Fig. 10)) (1903 Figure 1);

Attach the RFID tag IETener.H1 (1801 Figure 1) a foot to the auxiliary battery box abutment point (88026 Figure 2) according to the attachment scheme Pin1.3a or Pin1.2a (Fig. 10), and the RFID tag IETener.U1 (1901) Figure 1) b foot attached to the auxiliary battery port (1803 Figure 1) according to the attachment scheme (180299, this time with Pin1.3b or Pin1.2b (Figure 10));

The above 1801 tag is used to communicate with the 1, 2, and 3 modules through the technical protocol (1899), and the battery replacement number (REG.EXC.COUNT) is stored and transmitted by 1 to the ET information platform (64);

The above 1901 tag is used to communicate with the 1, 2, and 3 modules through the Technical Protocol (1999), and stores and transmits the initial battery power (REG.volori.<REG.EXC.COUNT>) and the battery termination power (REG). .volend.<REG.EXC.COUNT>) to the ET information platform (64); the above auxiliary battery is equipped with an RFID tag matching corresponding interface, which conforms to one or more of FIG. 10, 11, and 12. The interface function standard of the patching scheme is to dock the auxiliary battery box of the smart wallet (88026, FIG. 2) and the auxiliary battery box input terminal (88808017, FIG. 17), respectively, to function as a damage monitoring and early warning function for the auxiliary battery.

The above auxiliary batteries are distributed in the market, and each auxiliary battery has a unique identification code, and the assembled body (991199) is used for circulation between consumers (smart electronic devices such as mobile phones that are on the go). 999999), as shown in 1701 and 1601 of FIG. 1, its connection schemes 170299, 1703, 1799, and 160299, 1603, and 1699 are similar to the technical characteristics of 1901 and 1801, respectively. In particular, the ET information platform (64) will segment the power value according to the time and geographical characteristics of the power consumption, and the information such as the smart wallet ID information, and distribute the value to the power user and the power supplier.

The modular system and technical solution involved in the above application scenario 4 constitute a "micro-energy interaction ecosystem".

Option 5: For the above problem (5), the technical solution of the solution proposed in “Application Scenario 5” is:

An alarm buzzer is set on RFIDIcn (Fig. 1 of 2001), and the 2001 is placed on the flock and the individual of the livestock according to the attachment scheme (200299, Fig. 1, consisting of one or more of Figs. 10, 11, and 12). 2003), inspections, alarm commands/feedback signals are transmitted within the flock by the technical agreement (9921019), and possibly also by the wireless communication protocol (2099). When the alarm command is issued, the tag and the reader generate a two-way alarm. The buzzer alarm on the tag end is to remind the individual to return to the collective controlled range (until the individual returns to the middle of the group along the center). The function recognition range may be Within 100 meters (using the microwave frequency band 2.5GHZ communication and / or using active tags), it is mainly suitable for grassland herders to centrally control the stocking/care of cattle and sheep.

The modular system and technical solution/protocol involved in the above application scenario 5 constitute an "intelligent biological traceability system".

Option 6: For the above problem (6), the technical solution of the solution proposed in “Application Scenario 6” is:

The smart wallet or module user attaches the RFID tag IGn (2101) to the food, goods and goods (2103) with the attachment scheme (210299), and the RFID tag IGn (2101) through the communication technology protocol (2199), possibly, It is then identified and communicated by the 1, 2, and 3 modules through the RFID over-the-air communication protocol (9921019). Calculate the required quantity and value of the item by the program command/function (order.buyscan) module (possibly, also send the shopping list to the mobile APP (27) via the function order.sendlist.buyscan, and pass the mobile APP (27) The function order.websourcing collects the appropriate suppliers and returns the collected results to 1 through the function; possibly, the mobile APP (27) will also push the travel path information to the 1 via the function order.buyroad.), the user goes shopping Before, the items to be purchased can be preset in the memo menu 27, and the RFID tags IG1, IG2 to be attached are preset. . . IGn (2101), during the shopping time period, when the 1, 2, and 3 modules identify the RFID tag through the function order.buycheck (the RFID tag is not attached to the purchased product), the smart wallet and related units generate "missing purchase". "Call the police;

The above RFID tags IG1, IG2. . . IGn (2101), which may be made of low-frequency passive tags, used for short-distance identification communication with the RFID reader module (2); it may also be a composite made of low, medium and high frequency chips. RFID tag.

The above function order.buycheck is to issue read and write instructions through 1 to 2.

The modular system and technical solution/protocol involved in the above application scenario 6 constitute a "smart shopping system".

Option 7: For the above problem (7), the technical solution of the solution proposed in "Application Scenario 7" is:

The RFID tags IP1 to Pn indicated by 2201, 2301, 2401, 2501, 2601, 2701, and 2801 in Fig. 1 have the structural characteristics that the embedded chip is an inductive chip (electromagnetic induction chip coil) designed to be sensitive to various electromagnetic waves. ), the carrier information or the combined carrier information is demodulated by the radio frequency transmitting chip (such as the technical protocols 2299, 2399, 2499, 2599, 2699, 2799, 2899 in FIG. 1), and can be used as a reader peripheral or a tag detection range. Decision signal for internal wireless electromagnetic wave environment detection (for example, attaching RFID tag IP1, RFID tag IP2, RFID tag IP3, RFID tag IP4 through corresponding attaching scheme (such as one or more of Figures 10, 11, and 12) Attached to the four walls of the living room, the main control unit receives signals (intensity, phase and other related parameters) and outputs electromagnetic threat alarm signals; further, the main control unit may also propose anti-interference or anti-electromagnetic detection commands to the radio frequency transmitting unit. .

The above-mentioned main control unit is a basic detection module composed of 1, 2, and 3, and a reinforced defense module composed of an electromagnetic detection monitoring and analysis module (30 FIG. 1) and an electromagnetic defense RF excitation antenna (29). Into.

Electromagnetic defense RF excitation antenna (29), its structure may be designed according to technical agreement 0 (4999), technical agreement 1 (3330019), technical agreement 2 (3330199); its support may be dependent on the label attachment scheme {such as application Monitoring point 1 (2203), monitoring point 2 (2303), monitoring point 3 (2403), monitoring point 4 (2503), monitoring point 5 (2603), monitoring point 6 (2703), monitoring point n in scenario 7 2803) The cube face formed, wherein the monitoring point n monitors the midpoint of the cube}, the umbrella surface (333001 Figure 1 and its control center 88000 Figure 1), the door frame or other building body (33301 filter antenna); The signal may be a stray electromagnetic pulse (or defensive electromagnetic pulse), which may be an irregular, spurious pulse wave consisting of low, medium, high, very high frequency, ultra high frequency, microwave and related frequency bands. .

The main purpose of this function is: When the electromagnetic environment of the module is unintended interference, the RFID system will trigger electromagnetic detection and defense mechanism to protect the proper safety of the surrounding electromagnetic environment. The interference/intrusion/stealing of the electromagnetic pulse includes, for example, interference or advertisement based on fixed-point push radio frequency band, network terminal-based WiFi/Bluetooth/Zigbee/infrared signal, mobile communication network based or base station or pseudo base station transmission The electromagnetic emission device of the network equipment terminal such as the electromagnetic pulse signal and the combination of the above electromagnetic wave/signal emission schemes (in particular, it is also possible to cooperate with the offline personnel to operate the short-range electromagnetic wave transmitting device, and the artificial sound and light based on the community cluster attack). , harassment of signals such as electricity, heat, magnetism, radiation, etc., detection, intrusion, interference of normal wireless electromagnetic communication, wired electromagnetic communication, human brain wave, iris, fingerprint, human biological signal characteristics or human physiological structure of the main body of the region , stealing, truncating, or damaging, specifically indicating that the intrusion, interference, theft, truncation, or damage is based on certain evidence.

In particular, the above-mentioned main control unit also constitutes a cluster electromagnetic defense system by using a surrounding satellite (26601 FIG. 1) in the application scenario 9.

The above-mentioned cluster electromagnetic defense system refers to the position and the trajectory (direction) of the floating device that is strongly pulled by the electromagnetic field of one of the elements of the satellite (Fig. 1 of Fig. 26601), and the position of the strong magnetic flux (strong electromagnetic wave) (emission source) is determined. of.

The above method for determining the position of the strong magnetic flux is characterized by:

Through the ET information platform, the floating trajectory parameters transmitted by the body-wound satellites (26601, Fig. 1) are collected, and the decision degree is determined by the concentration degree of the floating direction of a certain geographical position and time point.

The modular system and technical solution/protocol involved in the above application scenario 7 constitute an "intelligent electromagnetic monitoring and defense super-sensing system".

Scenario 8: For the above problem (8), the technical solution of the solution proposed in "Application Scenario 8" is:

Distance monitoring module (25501) constructed by RFID reader module (2), pupil recognition and positioning module (25502), fingerprint identification and positioning module (25503) and corresponding technical protocols (2550199, 2550299, 2550399), through technology The protocol (2550499) and the MCU module (1) constitute a behavior monitoring system.

The behavior monitoring system integrates the three types of signal information a, b, and c to realize real-time monitoring of micro-distance.

The above type a information is obtained by the RFID reader module (2) reading the RFID tag group information. This is achieved by the signal from route 4799-3-4999, 4799-3-3330019 or 4799-3-3330199 being transmitted to the distance monitoring module (25501) via the technical protocol (2550199).

The above-mentioned b-type positioning information is transmitted by the pupil identification and positioning module (25502) to the distance monitoring module (25501) through the technical protocol (2550299).

The above-mentioned c-type positioning information, the signal output by the fingerprint identification and positioning module (25503) is transmitted to the distance monitoring module (25501) through the technical protocol (2550399).

The distance monitoring module (25501) constructs a positioning coordinate space by using the class meta information of the b and c types and the positional meta information of the 25501 itself, and determining the RFID tag by combining the phase, intensity, and delay of the pulse signal of the a type information. Group positioning information and calculation with 25501 the distance.

The distance monitoring module (25501) communicates with 1 through a technical protocol (2550499), 1 modulates the demodulated signal by the ET communication port (31) based on the technical protocol (3999), and passes the technical protocol (3599) and the ET system (33). The communication, ET system (33) uses the ET five-domain model to perform data mapping on the demodulated regularized signals, thereby implementing traceability monitoring of the RFID tag set (ie, the set of monitored objects).

The ET communication port (31) performs regular demodulation on the signal transmitted by the distance monitoring module (25501), and combines the calibration encrypted information from the time domain calibration/collector (31001), using the ET communication technology protocol (3599). The ET system transmits the high-density distance monitoring ET information, and the mapping rules of the ET five-domain model for the high-density distance monitoring ET information are as follows:

The b-type information is mapped to the evaluation subject domain, the c-type information is mapped to the process domain, the a-class information is mapped to the product domain, and the commodity domain mapping is transmitted from the ET information platform (the perceived information uploaded by the monitoring object itself).

The ET system traces the information uploaded by the above behavior monitoring system to the following data information:

On the night before the geography exam, the distance between the right hand fingerprint of the little scorpion jack and the mouse (one of the label attachment objects) stayed at a value of 0 cm for a long time, his pupil and the computer (one of the label attached objects) The distance stays at a value of about 25cm for a long time. His geography textbook is a long distance between the computer and the mouse. The tracking data of the commodity domain mapping finds that he is a teammate in "Heroes Invincible" during this time period. Aluka has issued a lot of complaints. This is enough to make people know that he has not spent his time studying.

After personally teaching, this little nephew does have some bad habits that hinder learning, but it is unrealistic to teach at all times. A Jun believes that he sends his own knowledge in geography through the command/function order.sendlist.geostudy of the smart wallet. The memo menu (REG.private.listgeostudy) goes to his smart wallet to intelligently assist his geography discipline to grow.

The above intelligent assistance has the following technical features:

A smart wallet that receives a derivation-type memo menu. The MCU module (1) holds the sender's memo menu (REG.public.listgeostudy), and the command/function Order.public.listgeostudy will check the geography-related itinerary at any time. The object is pushed to the recipient's memo menu.

The above Order.public.listgeostudy refers to the intelligent identification of the object by the information element of the object name and the abbreviation of the itinerary. By comparing the correlation between REG.private.listgeostudy and REG.public.listgeostudy, the RFID reader module (2) ) Transfer inspection and alarm commands.

For example, A’s trip to Tibet often carries a pipe called “Flaming Fragrance” (RFID tag i8, 9950 in Figure 1). One day in 2015, JACK intends to go with friends. In Tibet, when entering the itinerary plan, the smart wallet pushes the object RFID tag i8 to the JACK that is entering the itinerary plan, and the system enters it into the memo menu and uses it as a daily inspection sequence. Because JACK does not know that in the highland areas, the human body should be different from the geographical climate, and it is prone to symptoms of hypoxia. The "burning incense" pipe can supplement the body's oxygen supply.

Smart Wallet achieves trips between relatives, friends, and teachers and students through instructions such as Order.public.list.n, order.sendlist.n, Order.prviate.list.n, order.rece.list.n, etc. Derivation, teaching, inheritance, and learning of experience knowledge such as object preparation, and then achieve the super-perceive management function of “the object supervisor”.

The modular system and technical solution/protocol involved in the above application scenario 8 constitute an "intelligent behavior monitoring super-perception education system".

Scenario 9: For the above problem (9), the technical solution of the solution proposed in "Application Scenario 9" is:

Through the surrounding camera (26603) in the satellite (26601), the surrounding state of the human body is observed and monitored, and the monitoring information is transmitted to the MCU module (1) through the technical protocol (2660399), while the satellite is wound around the body. (26601) Receiving environmental information around the human body through a technical protocol (2660199) (this information is obtained by 2 through patrol information on the surrounding RFID tag group).

The attitude control of the above-mentioned satellite (26601) is obtained by the technical protocol (2660599) to obtain a control signal from the distance monitoring module (25501) to obtain the attitude balance. In particular, the body-worn satellite utilization technology protocol (2660299) and the technical protocol 2660499) obtain the control demand signal of the host through the pupil identification and positioning module (25502) and the fingerprint recognition and positioning module (25503), such as: flight posture, Attach flight and surround patrol track control. In particular, the above-mentioned posture control may be controlled by controlling the key compartment (88005, Fig. 2), and at this time, the key C9 (888094 Fig. 8) is a direction control unit designed as a direction control rod.

The above-mentioned pupil recognition and positioning module (25502) and the communication protocol 2660299 and 2660499 between the fingerprint recognition and positioning module (25503) and the surrounding satellite (26601) are two-way communication for detecting human behavior and behavior, Acquisition and interactive control.

The power source of the above-mentioned satellites may be realized by the following technical solutions:

The micro-power is provided by the intelligent floating force device (26602), and the floating device is controlled by the electromagnetic field to control the posture, orientation and action. The above actions are limited by a certain momentum limit.

The modular system and technical solution/protocol involved in the above application scenario 9 constitute an "intelligent monitoring super-sensing auxiliary survival system".

Solution 10: For the above problem (10), the technical solution of the solution proposed in "Application Scenario 10" is:

The smart wallet and its module management system in the application scenario 1 constitute a radio frequency transmitting micro-site cluster formed as shown in 33001, 33002, and 9933001, and the data is transmitted through the technical protocol (9933099) and the ET communication port/protocol (31). Interaction, the ET system (33), the RF transmitting microsite cluster, the ET communication port/protocol (31) constitute the local microsite group (9933717), which combines the technical protocol (6899) through the ET system (33), and related The management protocol (6699, 6799, 6999) constitutes the ET information platform (64).

The above related management agreement is used for the ET system (33) to submit an instruction execution permission request to the relevant administrative supervision department (62), the technical supervision department (63), and the international arbitration institution (65). 6699 and 6899 are used for the request signal when the electromagnetic defense RF excitation antenna (29) transmits the stray electromagnetic pulse wave, and 6999 is used when the request signal is delayed or even not responded, the system proposes to the international arbitration institution (65). Communication negotiation information.

The modular system and technical solution/protocol involved in the above application scenario 10 constitute an "ET-assisted communication ecosystem".

A Jun constitutes a comprehensive functional system through the solutions proposed for the above ten problems. The system architecture is shown in Figure 1. The ultimate goal of the system architecture is to achieve the interaction between people, things and big data. Perceive management effects.

DRAWINGS

Figure 1: Technical diagram of (module (module set) and management system)

Figure 2: Main view of the smart leather wallet structure

Figure 3: Top view of the smart leather wallet structure

Figure 4: Front view of the smart leather wallet structure

Figure 5: Smart leather wallet structure right view

Figure 6: Rear view of the smart leather wallet structure

Figure 7: Smart leather wallet structure diagram left view

Figure 8: Smart leather wallet structure view bottom view

Figure 9: Structure diagram of the label attachment machine

Figure 10: RFID tag main body structure and attachment scheme

Figure 11: RFID tag design / manufacturing plan

Figure 12: Partial enlarged view of the RFID tag design/manufacturing plan

Figure 13: Self-locking control structure diagram of the flip hatch

Figure 14: Flip hat door self-locking control action diagram (controller)

Figure 15: Full view of the phone placement box

Figure 16: Flip fulcrum structure

Figure 17: Structure diagram of charging terminal and connecting line

Figure 18: Structure of the phone card board

Figure 19: Charging baffle and anti-collision bar diagram

Figure 20: Exterior view of the phone placement box

Figure 21: Front view of the retaining plate clamping scheme (stop valve)

Figure 22: Main view of the retaining plate clamping scheme (stop valve)

Figure 23: Schematic diagram of the buffer plate of the check valve

Figure 24: Charging switch diagram of the check valve

Figure 25: Software instruction list, storage structure and algorithm structure diagram

Figure 26: Software instruction list, storage structure and algorithm structure diagram (continued 1)

detailed description

An implementation example is a smart anti-forgotten smart wallet as a carrier of the module and management system referred to in the present invention, and the corresponding functional modules are integrated in stages according to the time planning, phase planning, and sample/plan experimental verification progress of the system development. And the management system, ultimately constitutes an integrated solution with a smart wallet as an integrated control center. The implementation steps are as follows:

STEP1: Develop and manufacture intelligent anti-forgotten smart wallet structure and corresponding components; STEP2: Develop/consolidate existing technology standards and protocols (first phase: integrate technical standards and protocols required for application scenario 1; second phase: integrate application Scenario 2 required; Phase 3: Integration of Application Scenario 3 required; . . . ; STEP3: Development/application of related electronic modules and electronic parts; STEP4: Development/application related communication port; STEP5: Development/application related intelligence Hardware; STEP(2-5).1: Development/application of the underlying control chip and its instruction program; STEP(2-5).2: Development of intermediate programs; STEP(3-5).1: Development and manufacture of electromagnetic transmitting antennas And its construction plan and standards; STEP6: development of mobile APP; STEP7: development of ETAPP.

among them:

STEP1: Develop and manufacture intelligent anti-forgotten smart wallet structure and corresponding parts

The intelligent anti-forgotten smart wallet structure mainly consists of a wallet body structure (Fig. 2 to Fig. 8), a label attaching machine structure (Fig. 9), a label design and a patching scheme (Fig. 10, Fig. 11, and drawings). 12), self-locking control unit (Fig. 13, Fig. 14), mobile phone placement box and charging function structure (Fig. 15 to Fig. 24).

STEP2: Develop/consolidate existing technology standards and protocols, including:

(1) Communication technology protocols/ standards 899, 999, 1099, 1199, 1299:

a) Applicable to the solution of Problem (1) (Application Scenario 1): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000 -4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (under 433.92MHZ) EPC Class1Gen2, UID Center, one of the Chinese RFID coding systems Or a variety. In particular, the RFID tag set is typically designed to be reusable and portable.

b) Applicable to the solution of problem (3): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ) One or more of ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, and China RFID coding system. In particular, the RFID tag set is typically designed to be reusable and portable.

c) Applicable to the solution of problem (8): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ) ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind One or more of the wireless communication systems.

d) Applicable to the solution of problem (9): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ) ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind One or more of the wireless communication systems.

e) Applicable to the solution of problem (10): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ) ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1 Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some One or more of a variety of wireless communication systems.

The 801 Derivative Series (9950) containing 899 related attributes is equivalent to the above.

(2) Communication Technology Protocol/Standard 1399:

Applicable to the solution of question (2)(8)(9)(10): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO /IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID Encoding System, WIFI, Bluetooth, GSM, CDMA2000, WCDMA , one or more of TD-SCDMA or some type of wireless communication system.

The 1301 Derivative Series (991301) containing 1399 related attributes is equivalent to the above.

(3) Communication Technology Protocol/Standard 1499, 1599:

Applicable to the solution of question (3)(8)(9)(10): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO /IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID Encoding System, WIFI, Bluetooth, GSM, CDMA2000, WCDMA , one or more of TD-SCDMA or some type of wireless communication system.

The 1401 Derivative Series (9954) containing 1499 related attributes is equivalent to the above.

(4) Communication Technology Protocols/ Standards 1899 and 1999, 1799 and 1699:

Applicable to the solution of problem (4): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind of wireless communication system. The 1901 and 1801 derivatives series (991199) containing 1499 related attributes are equivalent to the above.

(5) Communication Technology Protocol/Standard 2099:

Applicable to the solution of problem (5): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind of wireless communication One or more of the systems. The 2001 Derivatives Series (9955) containing 2099 related attributes is equivalent to the above.

(6) Communication Technology Protocol/Standard 2199:

Applicable to the solution of problem (6): ISO/IEC18000-1 and ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind of wireless communication One or more of the systems. The 2101 Derivative Series (992101) containing 2199 related attributes is equivalent to the above.

(7) Communication technology protocols/ standards 2299, 2399, 2499, 2599, 2699, 2799, 2899:

When applied to the solution of problem (7), it adopts: a certain wireless communication system.

The 2801 Derivative Series (9957) containing 2899 related attributes is equivalent to the above.

(8) Communication technology protocols/ standards 3499, 6699, 6799, 6899, 6999:

Adopt one or more of WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA or some kind of wireless communication system.

(9) Communication Technology Protocol/Standard 3599: TBC2

(10) Communication Technology Protocol/Standard 9933099: TBC2

(11) Communication Technology Protocol/Standard 3699: TBC2

(12) Communication Technology Protocol/Standard 3799: TBC2

(13) Communication Technology Protocol/Standard 3899: TBC2

(14) Communication Technology Protocol/Standard 3999: TBC2

(15) Communication Technology Protocol/Standard 293099:

It conforms to a technical standard for the communication mechanism between the electromagnetic detection monitoring and analysis module (30) and the electromagnetic defense RF excitation antenna (29).

(16) Communication Technology Protocol/Standard 4099: TBC2

(17) Communication Technology Protocol/Standard 4199: TBC2

(18) Communication Technology Protocol/Standards 4299, 6199:

Possibly, the technical standard for the power module (32) to be 29/3 direct/indirect power supply, respectively.

(19) Technical Agreement / Standard 4599:

Applicable to questions 4 and 7, when the power module (32 Figure 1) is switched to the auxiliary battery (88021 Figure 2), the technical feature of the 4599 is the data transmission through the MCU module, the receiving power module (32) is switched to The time and number of times the battery is assisted, and the initial power at the time of switching the auxiliary battery is recorded.

(20) Technical Agreement / Standard 5999:

Select a different mobile phone application group, or select the current universal mobile phone charging interface standard, and possibly also select the power interface standard that is equivalent to the technical agreement/standard 4599 applicable to the problem 4 and the problem 7, at this time the charging port ( 60) is matched with it. (21) Technical Agreement / Standard 4699, 4899:

Matches the selected RFID reader module (2).

(22) Communication Technology Protocol/Standard 4799:

Matches with the selected RFID reader module (2) and varies depending on the compatibility of the application scenario.

(23) Communication Technology Protocol/Standard 5899:

A technical protocol that matches the selected RFID reader module (2) or that matches the MCU module master program.

(24) Technical Agreement / Standard 2550199, 2550299, 2550399, 2550499: TBC2

(25) Technical Agreement / Standard 2660199, 2660299, 2660399, 2660499, 2660599: TBC2

(26) Communication Technology Protocol/Standard 4999: TBC2

(27) Communication Technology Protocol/Standard 3330199: TBC2

(28) Communication Technology Protocol/Standard 3330099: TBC2

(29) Communication Technology Protocol / Standard 9921019: TBC2

(30) Communication Technology Protocol/Standard 995599: TBC2

(31) Communication Technology Protocol/Standard 991699: TBC2

(32) Communication Technology Protocol/Standard 1330299: TBC2

(33) Communication Technology Protocol/Standard 1330399: TBC2

(34) Communication Technology Protocol/Standard 888067199, 888067299: TBC2

(35) Technical solutions 220299, 230299, 240299, 250299, 260299, 270299, 280299:

Compatible with one or a combination of the RFID tag design and attachment scheme (88003 Figure 2).

The above TBC2 refers to: ISO/IEC18000-2 (below 135KHZ), ISO/IEC18000-3 (13.56MHZ), ISO/IEC18000-4 (2.45GHZ), ISO/IEC18000-6 (860-960MHZ), ISO/ IEC18000-7 (below 433.92MHZ) EPC Class1Gen2, UID Center, China RFID coding system, WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA and other existing communication technology standards/protocols or one of a certain wireless communication system Or a variety.

The above-mentioned "Applicable to Problem n" system switching instruction is determined by the MCU module (1) according to the system interface signal status, and the main control program is based on the technical standard/protocol (by 5399, 3999, 3899, 4099, 4199, 4599, 5899). A combination of one or more of 2550499, 2660399, 1330299, 4499, 4399 is controlled.

STEP3: Development/application of related electronic modules and electronic components

The MCU module (1) includes two parts of an execution management system and components, wherein the components include: a power supply circuit, a JTAG interface, a reset circuit, a clock control unit, an audio (buzzer) circuit, and an external memory interface/circuit , optical indication (such as LED) circuit, serial port circuit or other communication interface circuit and necessary interface unit to communicate with peripheral circuit, main control chipset (microprocessor chip / single chip microcomputer), peripheral power supply device (such as lithium ion battery) , peripheral output devices (such as buzzer, LED indicator), RF transmitter (such as antenna board), heat dissipation and protection devices (such as alloy heat sink), I / O ports (such as Bluetooth, WiFi, Zigbee, infrared, USB Interface), as well as RFID tag sets, intelligent sensor data collectors. The MCU chip of the main control module unit (such as the LPC2131 chip) main control module unit usually includes necessary peripheral circuits such as power supply circuit, JTAG interface, reset circuit, clock control unit, audio (buzzer) circuit, external memory interface/ Circuit, optical indication (such as LED) circuit, serial port circuit or other communication interface circuit.

The RFID reader module (2), the main components are: RF module (mainly including RF receiving/transmitting chipset, and also includes power amplifier, balun, circulator, isolating switch, UART, RSSI, phase lock) Loop circuit, circulator, voltage controlled oscillator VCO, NOT gate control circuit, etc.), oscillation clock module, register, protocol command register, CRC, MCU interface interface, power supply circuit, RF transmitter (antenna), etc.

RF modules (eg M6E, AS3992, EM4298, EM9209, R1000, etc.), RF transceiver modules (including power amplifiers, baluns, circulators, isolating switches, UART, RSSI, phase-locked loop circuits, circulators, voltage-controlled oscillators) VCO, NAND gate control circuit, etc.), oscillating clock module, register, protocol command register, CRC, MCU interface interface, power supply circuit, RF transmitter (antenna), etc.

Electronic accessories such as: RF transmitter chipset, main control chipset (microprocessor chip / microcontroller), peripheral power supply (such as lithium-ion battery), peripheral output devices (such as buzzer, LED indicator), RF transmitter ( Such as antenna board), heat and protection devices (such as alloy heat sink), I / O ports (such as Bluetooth, WiFi, Zigbee, infrared, USB interface), as well as RFID tag sets, intelligent sensor data collector.

STEP4: Development / application related communication port

The communication module (25) refers to a traditional communication interface (such as WIFI, Bluetooth, GSM, CDMA2000, WCDMA, TD-SCDMA,), and a dedicated communication interface (such as a cable signal cable: an optical cable, a crystal head data cable, a USB cable, and One or more classes of interfaces that comply with relevant communication standards), public safety management communication interfaces (such as GPS, GIS information collection interfaces).

ET communication port/protocol (31): refers to the communication port and protocol based on the ET five-domain logical model.

Centralized control port (8880671): Refers to the port of the 888067 self-locking control unit that complies with the technical protocol 888067199.

Feedback/input port (8880672): refers to the port conforming to the technical agreement 888067299 of the compatible panel 607, the control button compartment 88005, and the label attaching machine 401.

STEP5: Development/application related intelligent hardware

According to Figure 2-24, select the material, relative position, size, and manufacture the related hardware (smart leather wallet) body.

STEP(2-5).1: Development/application of the underlying control chip and its instruction program

Application of advanced / assembly language, underlying chip development language environment, and related integrated chip development and simulation tools. (such as Keil uVision series, EDA such as Protel 99 se) develop MCU module master program.

The main control program according to the requirements of each system component and functional element in the above description, lists the list of mobile APP control components as shown in Figure 25, and lists the control panel end control components as shown in Figure 26.

The TBC3 described in FIG. 25 and FIG. 26 refers to an instruction unit/control/storage address/timing or algorithm structure depending on system components and functional elements.

STEP (2-5).2: Development of intermediate programs.

The development of the intermediate program includes: MCU module and mobile APP interface embedded instruction/program 1, MCU module and RFID reader module interface embedded instruction/program 2.

STEP (3-5).1: Development and manufacture of electromagnetic transmitting antennas and their construction schemes and standards.

STEP6: Develop a mobile app.

STEP7: Develop ETAPP.

Claims (15)

1. IoT-based separation alarm and aggregation control module and super-perception management system, its functions and technical features include but are not limited to:

   How to realize the anti-forgetting and anti-lost of daily scattered objects through a technical solution and management system, and realize the entry of the advanced plan to achieve the effect of “using the object supervisor”;

   How to realize mutual reminding of the meeting and establish a mutual trust mechanism through a medium and method;

   How to realize the integrated management mode of centralized control and short-term separation of household objects and assets through a technical solution and system;

   How to make the energy supply of mobile smart products such as mobile phones socialized and mutually supported through an integrated management system.

   How to realize the separation alarm and centralized control management of livestock through an integrated management system;

   How to realize traceability management of liquid products such as food and goods from the consumer side through an integrated management system;

   How to achieve the proper safety of the electromagnetic environment around the human body through a technical solution and system;

   How to achieve behavioral monitoring through a technical solution and system, and to impart excellent results-oriented behavior to others;

   How to realize comprehensive monitoring of the human body and its surrounding environment and realize human-computer interaction through a technical solution and system;

   How to realize a high-density local area link communication mode based on traceability and micro communication base station through an integrated technical solution and management system;

   On the basis of realizing the above functional requirements, a module set and management system is constructed to realize the effect of super-perception management through monitoring, tracing and analysis of people, materials and big data.
2. A technical solution and management system for "the object owner" according to claim 1, including but not limited to:

   "Intelligent anti-forgetting system"; the radio frequency identification function between the RFID reader module and the RFID tag is applied to the object separation alarm and collective control; and the anti-forgotten smart wallet which constitutes one of the elements of the "Intelligent Anti-Forgetting System" Structures or similar structural forms are manufactured and/or sold directly and/or indirectly; design or use of anti-forgotten smart wallets in structural or similar structural forms on bags, bags or other structures; anti-forgotten smart wallets The self-locking control unit and its components or their similar structural forms are used directly or indirectly; the RFID tag design and attachment scheme in the anti-forgotten smart wallet or the similar solution is used directly or indirectly; the anti-forgotten smart wallet The attached RFID tag attaching machine and its components or their similar structures are used directly or indirectly; the mobile phone placing box in the anti-forgotten smart wallet and its components or their similar structures are used directly or indirectly; The sliding structure, the limit structure, the stop structure, the charging terminal structure or the like structure of the mobile phone placement box are directly or indirectly Connected to use.
3. The medium and method for establishing a mutual trust mechanism according to claim 1, including but not limited to:

   "Intelligent Anti-default System" and its functional media TG business card; the separate alarm and collective control module consisting of RFID technology and RFID tags that constitute one of the elements of the "Intelligent Anti-default System" is applied to other objects or other purposes. Of.
4. The technical solution and system for the home item and asset integration management mode according to claim 1, including but not limited to:

   "Home Intelligent Management System" and its technical solutions; the filter antenna in the "Home Intelligent Management System" and its anti-forgetting, anti-theft and object management functions are directly or indirectly applied to other occasions (such as luggage, campus) , dormitory gates).
5. The energy supply socialized mutual aid supply integrated management system for a mobile smart product according to claim 1, including but not limited to:

   “Micro-energy interaction ecosystem”; the auxiliary battery management program that constitutes one of the “micro-energy interaction ecosystem” elements should be applied to other objects or other purposes; it will constitute one of the “micro-energy interaction ecosystem” elements. The battery fuel gauge and the segmented power value scheme or the like are applied to other objects or other purposes.
6. The integrated management system for realizing separation alarm and centralized control management of livestock according to claim 1, including but not limited to:

   "Intelligent Biological Traceability System"; applies the two-way alarm function scheme that constitutes one of the elements of the "Intelligent Biological Traceability System" to other objects or other purposes.
7. The integrated management system for implementing traceability management of a liquidity product according to claim 1, including but not limited to:

   “Smart Shopping System”; the “missing purchase” alarm mechanism or similar mechanism that constitutes one of the “smart shopping system” elements is applied to other objects or other purposes; the appropriate ones that constitute one of the “smart shopping system” elements are collected. The dealer's mechanism is applied to other objects or other purposes; the scheme of pushing the itinerary path information or the like that constitutes one of the "smart shopping system" elements is applied to other objects or other purposes.
8. The technical solution and system for realizing proper security of the electromagnetic environment around the human body according to claim 1, including but not limited to:

   "Intelligent electromagnetic monitoring and defense super-sensing system"; the technical solutions and structural components constituting the elements of "smart electromagnetic monitoring and defense super-sensing system" are applied to other objects or other purposes.
9. The technical solution and system for realizing behavior monitoring and transferring the superior result-oriented behavior to others according to claim 1, including but not limited to:

   “Intelligent Behavior Monitoring Super-perception Education System”; the distance monitoring module and its constituent technical solutions that constitute one of the elements of “Intelligent Behavior Monitoring Super-Perception Education System” are applied to other objects or other purposes; A memo menu push mechanism or similar mechanism, one of the elements of the educational system, is applied to other objects or other purposes.
10. The technical solution and system for realizing comprehensive monitoring of the human body and its surrounding environmental conditions and realizing human-computer interaction according to claim 1, including but not limited to:

    "Intelligent monitoring super-sensing assisted survival system"; intelligent floating floating force device; pupil recognition and positioning module; fingerprint recognition and positioning module; body-wound satellite; body-wound camera; through one of the above modules or a combination of several of them to achieve the human body Status and its interaction with the surrounding environment, monitoring, retrospective analysis, decision-making.
11. A traceability and micro communication base station is implemented by an integrated technical solution and management system according to claim 1.

    High-density local area link communication mode, including but not limited to:

    "ET-assisted communication ecosystem", a networked communication network using RFID readers.
12. The module set and management system for realizing super-perception management effects by monitoring, tracing, and analyzing human, material, and big data according to claim 1, including but not limited to:

    The above-mentioned "Intelligent Anti-Forgetting System", "Intelligent Anti-default System", "Home Intelligent Management System", "Micro Energy Interaction Ecosphere", "Intelligent Biological Traceability System", "Smart Shopping System", "Intelligent Electromagnetic Monitoring and Module set and system consisting of two or more combinations of defense super-sensing system, intelligent behavior monitoring super-perception education system, intelligent monitoring super-sensing auxiliary survival system, and ET auxiliary communication ecosystem The combination of one or more of the elements of the foregoing modules and systems forms other functions, or a combination of one or more of the elements described above for other objects or other purposes.
13. Direct or indirect use, other objects, or other objects as set forth in claims 2 through 11 above, including but not limited to, regardless of the purpose, circumstances, or design, manufacture, promotion, promotion, or sale of the object.
14. The above-mentioned "similar" in the modules and/or systems for realizing the functions of claim 1 or the functional components of the respective components of the above-described claims 2 to 11 or their constituent elements means The material, the joint position, and the size thereof form part of the invention.
15. According to the above claims 1 to 14, the main constituent elements of the present invention are "Intelligent Anti-Forgetting System", "Intelligent Anti-default System", "Home Intelligent Management System", "Micro Energy Interaction Ecological Circle", "Intelligent Biological Traceability System" "Smart shopping system", "Intelligent electromagnetic monitoring and defense super-sensing system", "Intelligent behavior monitoring super-perception education system", "Intelligent monitoring super-sensing auxiliary survival system", "ET-assisted communication ecosystem", among which When the claims of the invention are present, the corresponding elements of the invention are set forth in the claims of the appended claims.

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