WO2004010723A1 - Procede de mise en oeuvre de services intelligents sur un telephone mobile et telephone mobile mettant ce procede en oeuvre - Google Patents

Procede de mise en oeuvre de services intelligents sur un telephone mobile et telephone mobile mettant ce procede en oeuvre Download PDF

Info

Publication number
WO2004010723A1
WO2004010723A1 PCT/CN2003/000569 CN0300569W WO2004010723A1 WO 2004010723 A1 WO2004010723 A1 WO 2004010723A1 CN 0300569 W CN0300569 W CN 0300569W WO 2004010723 A1 WO2004010723 A1 WO 2004010723A1
Authority
WO
WIPO (PCT)
Prior art keywords
identifier
mobile phone
cell
trigger
intelligent service
Prior art date
Application number
PCT/CN2003/000569
Other languages
English (en)
French (fr)
Inventor
Zhengwei Wang
Original Assignee
Huawei Technologies Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Huawei Technologies Co., Ltd. filed Critical Huawei Technologies Co., Ltd.
Priority to US10/521,699 priority Critical patent/US7606584B2/en
Priority to AU2003248221A priority patent/AU2003248221A1/en
Publication of WO2004010723A1 publication Critical patent/WO2004010723A1/zh

Links

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q3/00Selecting arrangements
    • H04Q3/0016Arrangements providing connection between exchanges
    • H04Q3/0029Provisions for intelligent networking
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices

Definitions

  • the present invention relates to a method for implementing a smart service of a mobile terminal in a communication system, particularly a mobile phone, and a mobile phone for implementing the method.
  • the mobile phone When the user listens to a lecture by a famous scholar, the mobile phone needs to be put into a sleep state, for example, the secretary desk can handle it; after the user listens to the lecture, the mobile phone must be woken up again.
  • the user is at home at 7: 00 in the morning and wants to set the alarm clock of the mobile phone to 07:00.
  • the lunch break ends at 14:00 and the work of the afternoon is ready to begin. Therefore, the alarm needs to be set to 14: 00 rings.
  • the mobile phone responds according to the wishes of the user. For example, after the passenger boarding, the radio module of the mobile phone is turned off to let the mobile phone sleep. After the passenger gets off the plane, the radio frequency of the mobile phone is turned on.
  • Wireless device searches the wireless identifier of the fixed phone through the built-in wireless device, receives the fixed phone number transmitted by the fixed phone identifier, and combines the blocked phone list stored in the mobile phone to select the corresponding fixed call destination transfer phone Number; then send a call forwarding instruction to the mobile network to complete the corresponding call forwarding settings.
  • the present invention is to provide a method for implementing a mobile phone intelligent service and a mobile phone for implementing the method.
  • the method can implement more mobile phone intelligent services, and has a wide application range and field.
  • the present invention provides a method for implementing a mobile phone intelligent service, which includes the following steps:
  • a marker is set, and the marker is a wireless marker, which is used to identify a physical object that is desired to be identified; the identifier stores identification information of itself and the identified object, and transmits the identifier wirelessly Information
  • the identifier is a wireless identifier, for receiving identification information transmitted by the identifier; setting a wireless identifier in a mobile phone, and storing a preset trigger record in the mobile phone;
  • the mobile phone receives the identification information transmitted by the identifier through its identifier, and when the mobile phone determines that the mobile phone has just entered the identifier based on the received identification information
  • the mobile phone executes the preset trigger record in the preset trigger record that needs to be performed when the cell just enters the cell to trigger the intelligent service
  • the mobile phone determines that it is continuously in the cell where the identifier is located, the mobile phone combines the current time to determine the execution of the preset trigger record that needs to be performed when the mobile phone remains in the cell. Keep triggering smart business;
  • the mobile phone executes the exit trigger intelligent service that needs to be performed when leaving the cell in the preset trigger record.
  • the keep-triggering intelligent service may be a repetitive triggering intelligent service that is repeatedly executed at a predetermined time interval, or a timing-triggered intelligent service that is executed at a predetermined time and timing.
  • the preset trigger record includes an entry trigger record corresponding to the approach trigger intelligent service, an exit trigger intelligent service, a repeated trigger intelligent service, and a timing trigger intelligent service, and an exit trigger respectively. Record, repeat trigger record, timing trigger record.
  • the cell may be a single-identifier cell individually identified by one identifier, or a multi-identifier union cell collectively identified by multiple identifiers, or may be a multi-identifier cell collectively identified by multiple identifiers.
  • Multi-identifier intersection cell jointly identified by identifiers.
  • the intelligent service includes call transfer of a mobile phone, incoming call restriction, sending a short message, sleeping, waking, an alarm setting, a ring tone type or a volume setting.
  • an authentication and authentication step may be further added. After the mobile phone receives the identification information transmitted by the identifier through its identifier, if it is determined that it is a new identifier that is newly found The mobile phone also needs to perform authentication and authentication on the new identifier. When the authentication and authentication are qualified, it is further judged whether to trigger the corresponding intelligent service.
  • the present invention further provides a mobile phone, which is provided with a recognizer, and the recognizer includes a receiving module for receiving a short-range wireless signal transmitted by an external identifier; the wireless receiving module is from The corresponding identification information is decoded from the received wireless signal and output to the microprocessor of the mobile phone for analysis and processing.
  • the identifier may be provided with a transmitting module for transmitting a short-range wireless signal to an external identifier.
  • the present invention sets the identifier and the identifier, and stores the identifier in the identifier And the identification information of the identified object, the trigger record list set by the user is stored in the mobile phone containing the identifier function, so that when the mobile phone enters a multi-identifier cell determined by multiple identifiers or determined by one identifier In the case of a single identifier cell, the identification information stored in the searched identifier can be obtained, and each entry trigger record in the trigger record list stored by itself can be used to determine the entry trigger intelligent service to be triggered. Can trigger various services provided by mobile phones that meet the trigger conditions. Compared with the existing methods, the present invention has the following advantages:
  • the method of the present invention can trigger more intelligent services of mobile phones, and has a wider application range and field.
  • FIG. 1 is a flowchart of the implementation of the method of the present invention.
  • the method according to the present invention can implement mobile phones to do different things in different environments, that is, to complete automatic triggering of various services of the mobile phone, so that the mobile phone can change due to environmental changes. For example, the automatic setting and cancellation of call forwarding can be realized, and the ring tone type can be changed.
  • the present invention is implemented by a mobile phone by adopting a wireless identifier and a wireless identifier, and it is not necessary to upgrade the mobile network.
  • the smart service of the mobile phone implemented by the present invention can in turn promote the development of mobile network services. For example, the current ONLY service triggers a call restriction service when the mobile phone enters the office, which can eliminate the mobile phone. The trouble of ringing at the same time as the office phone.
  • FIG. 1 is an implementation flowchart of the method according to the present invention.
  • an identifier and an identifier are first set in step 1.
  • the identifier is a wireless identifier and is used to identify a physical object that is desired to be identified. That is to say, it is necessary to use a set wireless identifier to identify a physical object to be identified at a relevant place.
  • identification information of the identifier and the identified object is stored. Refer to the following table for the identification information stored in this example-Table 1. Identification information stored in the identifier
  • Table 1 describes the identifier's electronic serial number (ESN), group code (GroupNo), type of identified object (ObjClass), identified object number (ObjNum), and identified object name (ObjName). ), And the position of the identifier relative to the identified object is offset from the triples information.
  • the identifier is a wireless identifier, and is configured to receive a wireless signal transmitted by the identifier, and the identifier is built in the mobile phone.
  • the mobile phone stores preset entry trigger record list, exit trigger record list, repeat trigger record list, and timing trigger record list preset by the user.
  • the identified object name 32 is convenient for users to remember and manage. For example, "My Office”, “My Home”, Nantianmen of Taishan, etc. This number is entered by the user. It can also be obtained from the identifier and changed by the user to his favorite name.
  • Intelligent service char (128) A command line; For example: CF 26540808 indicates that 26540808 is used as the call forwarding destination number for call forwarding settings;
  • TrigerMode 1 0 single marker cell mode
  • TrigerMode 1.
  • Marker ESN match code 8 (tentative 8-bit) 8-digit hexadecimal number, used to wilden the electronic serial number of some markers.
  • ObjClass The type code of the identified object.
  • the identified object name 32 is convenient for users to remember and manage. For example, "My Office”, “My Home”, Nantianmen of Taishan, etc. This number is entered by the user. It can also be obtained from the identifier and changed by the user to his favorite name.
  • Intelligent service char (128) a command line; for example: NCF means cancel the previous transfer setting.
  • TrigerMode 1 0 single marker cell mode
  • TrigerMode 1.
  • Table 4 the format of the repetitive trigger record list is shown in Table 4 below:
  • ObjClass The type code of the identified object.
  • the identified object name 32 is convenient for users to remember and manage. For example, "My Office”, “My Home”, Nantianmen of Taishan, etc. This number is entered by the user. It can also be obtained from the identifier and changed by the user to his favorite name.
  • InterVal 4 represents the time interval during which an event is repeatedly generated while remaining in a cell.
  • Intelligent business char (128) A command line; for example: SendSM "Mom, I'm still reading in the library"
  • TO 13823766888 is a text message set by a primary school student to her mother, telling her where she is, so that she can rest assured.
  • the format of the timing trigger record list is as follows:
  • ObjClass The type code of the identified object.
  • the identified object name 32 is convenient for users to remember and manage. For example, "My Office”, “My Home”, Nantianmen of Taishan, etc. This number is entered by the user. It can also be obtained from the identifier and changed by the user to his favorite name.
  • Intelligent service char (128) A command line; for example: Play Clock Ring means playing the alarm bell.
  • TrigerTime 8 indicates the time when an event is generated when it is kept in a cell.
  • each record includes the identifier's electronic serial number (ESN) match code, group code (GroupNo), and the type of the identified object (ObjClass).
  • ESN electronic serial number
  • GroupNo group code
  • ObjClass type of the identified object
  • the three domains form the "identifier-triggered business record" matching key domain, which is referred to as matching key domain for short.
  • the mobile phone uses the identification information of the identifier to match each of the matching key fields in the trigger record list to filter out various intelligent services that need to be triggered.
  • the group code GroupNo is used to associate multiple identifiers, for example, a plurality of identifiers are formed by several identifiers with the same group code.
  • the identified object type code ObjClass refers to the classification of the object identified by the identifier.
  • the regional types include regional (Asia, African, European, etc.) codes, country codes, and domestic codes.
  • the transportation types include airplanes and trains. , Ships, yachts; building types include academic lecture halls, conference rooms, offices, homes, classrooms, libraries, churches, hotels; playground types include parks, zoos, and beaches; tourist attractions include certain temples, Taoist temples, Mount Tai, Shaolin Temple, etc.
  • Interval indicates the time interval during which a certain intelligent service needs to be repeatedly performed when it is maintained in a cell.
  • Intelligent services which represent various services supported by mobile phones, including call forwarding, restricted incoming calls, short messages, hibernation, wake-up, alarm settings, ring tone type or volume settings, and so on.
  • TrigerTime which indicates the time required to execute a certain intelligent service periodically while staying in a cell.
  • TrigerMode can be single marker cell mode, multi-marker union set cell mode.
  • TrigerMode 0, for any identifier that matches the trigger record, when the mobile phone receives the identification information transmitted by the identifier for the first time, it is determined that it has just entered a single identifier cell that is individually identified by the identifier. , And execute the approach-triggered smart service that needs to be performed when entering the single-identifier cell.
  • TrigerMode 1
  • the mobile phone receives the identification information transmitted by any one of the identifiers for the first time, it is determined that it has just entered the multiple identifiers collectively identified by these identifiers.
  • TrigerMode 0, for any identifier that matches the trigger record, when the mobile phone enters the single identifier cell that is individually identified by the identifier, if the identifier transmitted by the identifier is not received within a preset time Identification information, it is determined that the single identifier cell has just left, and the exit-triggered intelligent service that needs to be performed when exiting the single identifier cell is executed;
  • TrigerMode 1, for all identifiers that match the trigger record, when the mobile phone enters the multi-identifier union area collectively identified by these identifiers, if it does not receive any of all identifiers within a preset time
  • the identification information transmitted by the identifier is determined, it is judged that the smart service is just exited when the multi-identifier union cell is left, and the exit-triggering intelligent service needs to be executed when exiting the multi-identifier union cell.
  • the relevant service is triggered, that is, if the If the multiple identifiers are integrated in the cell, the related service set by the record is not triggered every time an identifier is left.
  • a multi-identifier union cell when the mobile phone works in the multi-identifier union cell mode, for all the identifiers that match the trigger record, when the mobile phone enters the multi-identifier collectively identified by these identifiers, After the identifiers are integrated into the cell, if the mobile phone receives the identification information transmitted by any of the identifiers within a preset time, it is judged to be maintained in the multi-identifier and integrated cell; Repeated triggering of intelligent services that need to be repeatedly performed when the identifiers are integrated in the cell, and each time its preset time interval expires, the repeated triggering of intelligent services is performed once; for maintaining in the multi-identifiers and integrated cells, it needs to be executed regularly.
  • the smart service is triggered at a predetermined time, and when the preset time is reached, the smart service is triggered at the time. For example: The user sets the timing trigger record when the mobile phone is kept in the marker area of the home as 7: 00 in the morning, and starts an alarm bell to remind the user to get up. The user sets the timing trigger record when the mobile phone stays in the office marker area to start at 14:00, and starts an alarm bell to remind the user to end lunch break and start working in the afternoon.
  • the trigger mode of the record can still be set to multi-identifier union cell mode.
  • the results of the two trigger modes are the same.
  • a Boeing 777 is equipped with three markers, which are installed in the front, middle, and rear positions of the cabin. Passengers need to set relevant trigger records on the Boeing 777 aircraft in their mobile phones. Because the passenger did not know the multiple triggers and their identification information on the Boeing 777 when setting the record, they only knew the type of the identified object ObjClass in the identification information, that is, the object type of the identified object Boeing 777.
  • the user's mobile phone can be set as follows:
  • the "send a short message to the family + shutdown" service is triggered; during this period, if the passenger walks from the nose to the tail of the cabin, leave the marker A Enter the identification range of marker B, leave the identification range of marker B, and finally enter the identification range of marker C at the end of the cabin.
  • the mobile phone is still in a dormant state and will not leave marker A Or B, the service of "starting up + sending a short message to the family" will not be performed, and the service of "sending a short message to the family + shutting down” will not be performed again because it enters the identification cell of the identifier B or C.
  • the mobile phone when a passenger exits the aircraft from the rear of the cabin through the middle and head (assuming it is still at the boarding entrance), only when the mobile phone leaves the union area of the identification range of all three markers A, B, and C (actually the aircraft "), That is, when the signals of the three markers are not received, the" power on + short message to family "service is triggered.
  • the above trigger record setting is valid for passengers flying on any Boeing 777 aircraft.
  • the identifier built in the mobile phone searches for the identifier in step 2. When the mobile phone enters a valid signal range of the identifier, the mobile phone can receive the broadcast signal of the identifier.
  • the mobile phone when the mobile phone receives a broadcast signal from an identifier, the mobile phone will analyze and process the acquired identification information of the identifier. The analysis process is to check whether the identifier exists in the current identifier list according to the identifier information of the identifier. If it is found, it means that the identifier is not newly searched. At this time, the mobile refreshes the identifier with the current time. Time to receive a signal at a time.
  • the mobile phone adds the identifier to the current identifier list, and then the mobile phone needs to update the identifier.
  • the field trigger record list is used to find the entry trigger record matched by the marker. If there is no entry trigger record, no entry trigger intelligent service is performed. If some relevant entry trigger records in the market trigger record list are matched, then for each entry trigger record, the mobile phone also needs to determine in step 3 whether it has just entered the community or not due to the trigger mode of the record. different.
  • a mobile phone When a mobile phone newly searches for a marker, it also needs to use the newly searched marker to activate the relevant hold trigger list saved by itself, that is, the mobile phone also needs to repeat the trigger record list and the timer trigger list. Find the trigger trigger record, such as the repeat trigger record and timing trigger record that the marker matches, and activate these found hold trigger records.
  • the built-in identifier of the mobile phone is in a handshake state with the identifier in the current identifier list, or the identifier built in the mobile phone is in a detection state of the wireless signal of the identifier in the current identifier list.
  • Determine whether the mobile phone is disconnected from a marker can be learned by whether the marker signal can be detected within a specified time interval.
  • These signals can be various response signals returned by the marker including the handshake response signal And the broadcast signal of the marker), if you leave, the mobile phone first deletes the marker from the current marker list, and then the mobile phone also looks for the exit trigger record that the marker matches from the exit trigger record list. If not, no exit exit triggers intelligent services.
  • the mobile phone determines to leave an identifier, it also needs to search for each of the above-mentioned activated hold trigger records. For each activated hold trigger record found, the mobile phone first deactivates these records, and then performs the following processing on the hold trigger records that have just been deactivated one by one: Use the record to hold the trigger record to match the current identifier For each identifier in the identifier list, if a certain identifier in the current identifier list is matched, it means that the mobile phone has not left the identification cell matched by the record, and therefore, these newly deactivated hold trigger records are reactivated. In practice, the mobile phone periodically checks the current identifier list. For each identifier, the mobile phone compares the current time with the time when the identifier signal was last received. If the time difference exceeds the preset time value, the mobile phone Think of leaving the marker.
  • the mobile phone executes the repeatedly triggered intelligent service every time the interval elapses Interval (Interval must be greater than 0, otherwise it is invalid).
  • the mobile phone executes the timing trigger intelligent service once when the trigger time TrigerTime is specified.
  • the mobile phone searches for the identifier in a polling manner. If it finds an identifier, it establishes a connection with it, and then obtains the identification information from the identifier; then, it executes the above-mentioned related processing procedure. After the mobile phone establishes a connection with the marker, a handshake connection is maintained between the mobile phone and the marker. If the handshake fails for a certain number of times, or the waiting for a handshake response frame times out, it means that the mobile phone has exceeded the scope of the communication contact (such as Bluetooth communication The distance can be set to 5 meters), and the communication is naturally interrupted (in the broadcast mode, it is determined whether the communication is interrupted by detecting the timeout of the broadcast signal of the marker).
  • the marker is a mobile phone.
  • Unrelated identifier if neither an entry trigger intelligent record, an exit trigger intelligent record, nor a repeat trigger record, nor a timing trigger record is set for a marker, the marker is a mobile phone.
  • Unrelated identifier if any identifier, as long as any one of the four types of triggering services is set, the identifier is called the relevant identifier of the mobile phone.
  • the mobile phone can also classify its currently detected identifiers into non-related identifiers and related identifiers, as shown in Table 6.
  • each entry trigger at least one of the entry trigger, exit trigger, repetitive trigger, and timing trigger of each record must be 1, otherwise the identifier is an unrelated identifier.
  • the following functions can be provided for setting each trigger record list in the mobile phone:
  • the functions 7) and 8) are provided to avoid the trouble of re-entering the matching key domain dependency completely. That is, the user can make appropriate modifications based on the obtained identification information to complete the setting of trigger recording.
  • the mobile phone can also set some trigger switches, as shown in Table 7.
  • the above-mentioned single-identity cell refers to an effective signal coverage area of an identifier, and in this area, mobile The phone can obtain the identification information of the identifier.
  • the above multi-identity cell refers to a union area of an area covered by valid signals of multiple identifiers that meet a certain condition, and in this area, the mobile phone can obtain identification information from at least one identifier that meets the condition.
  • the invention can be used for tracking on-the-spot information of employees in large supermarkets, and tracking of mountaineering and climbing sports (when an athlete is in danger, he cannot send a short message to the rear in real time, so a short message record must be preset in advance), marathon long-distance running In the areas of sports route monitoring, child tracking, etc., at the same time, the tracking of travellers can give family members more peace of mind.
  • a trigger record may further include information on a trigger time limit or a trigger time limit.
  • a trigger record set by the user includes an allowable trigger time limit to limit the trigger, when the mobile phone executes the entry-triggered intelligent service, exits the triggered intelligent service, or maintains the triggered intelligent service, it needs to determine whether the current time is allowed to trigger. Within the time limit, if the corresponding intelligent service is executed, otherwise the corresponding intelligent service is not executed.
  • a trigger record set by the user includes a trigger-forbidden time limit for triggering the trigger
  • the mobile phone executes the entry-triggered smart service, exits the triggered smart service, or maintains the triggered smart service, it needs to determine whether the current time is within the prohibited trigger time If yes, the corresponding intelligent service is not executed; otherwise, the corresponding intelligent service is executed.
  • the mobile phone can also perform authentication and authentication on its particularly sensitive identifier to prevent possible mischief.
  • the mobile phone when the user returns home, his mobile phone can receive the signal of the identifier at home, and the mobile phone initially judges that the identifier is the identifier of his own home according to the ESN number of the identifier. Therefore, the mobile phone generates a random number together with itself The ESN of the mobile phone is sent to the identifier. After the identifier receives the ESN number and the random number sent by the mobile phone, the identifier is found from the list of the correspondence relationship between the mobile phone ESN number and the corresponding KEY according to the ESN number of the mobile phone.
  • the KEY of the mobile phone uses the random number sent by the mobile phone and EY to perform the encryption operation (because the encryption algorithm has a well-known technology) Therefore, this article does not specifically explain the encryption algorithm) and returns the result of the encryption algorithm operation to the mobile phone.
  • the mobile phone will also store the mobile phone corresponding to the identifier according to the random number.
  • KEY performs the same encryption operation, and compares whether the operation result and the identifier return the same. If they are the same, then confirm that the identifier is the identifier of their own home; otherwise, it is considered that the identifier is not the identifier of the home, which may be What the prankster did and marked it as a blacklist marker.
  • KEYs For different identifiers, users can set and save different KEYs in them.
  • the user can also use a unified KEY, which is applicable to all sensitive identifiers. In this way, the mobile phone does not need to set a list of "Identifier-1 ⁇ EY correspondence", but only sets a list of sensitive identifiers. And a public key.
  • a sensitive identifier table can be set in the mobile phone to indicate which identities the mobile phone needs to authenticate. For example, suppose the user considers that the home identifier and the office identifier are the two most commonly used identifiers. Then, the user can add the home identifier and the office identifier to their own sensitive identifier list. At the same time, the KEY corresponding to each identifier and its own mobile phone ESN are stored in the home identifier and the office identifier, respectively.
  • the authentication can also be performed periodically to prevent a halfway attack by a criminal.
  • the type of the identified object in the marker can also include a multi-object type (MultiObj), that is, a marker is used to identify multiple objects in its area, such as a mall, a coffee shop, a conference room, etc. in a building.
  • the identification information includes the electronic serial number (ESN) and group code (GroupNo) of the identifier, the number of identified objects, and the type (ObjClass), number (ObjNum), and name ( ObjName) and position offset triples.
  • ESN electronic serial number
  • GroupNo group code
  • the mobile phone can filter out the object information that it uses based on the objects in the list.
  • a multi-identifier intersection cell trigger mode can also be set.
  • the cell refers to an intersection area covered by signals of multiple identifiers that meet certain conditions.
  • the mobile phone can obtain Identification information of all identifiers of the conditions. This is significant for more accurate positioning using multiple identifiers combined.
  • This situation is equivalent to setting a group of markers Send a service. At this time, only when all the identifiers of the group are recognized by the mobile phone at the same time, the set entry or intelligent service will be triggered, and when leaving any identifier, the exit intelligent service will be executed. .
  • it is necessary to determine these identifiers.
  • the 'trigger record can be an electronic serial number list composed of the electronic serial numbers (ESN) of multiple identifiers, and of course, it also includes information such as smart services.
  • ESN electronic serial numbers
  • the mobile phone simultaneously receives Only when all the identifiers in the list are judged whether to execute corresponding intelligent services.
  • the mobile phone can also work in the multi-identifier intersection cell mode.
  • the trigger record includes at least information composed of multiple identifiers. Identifier information list, and the content in the identifier information list may be the electronic serial numbers of the plurality of identifiers.
  • the parameter information of the environment where the marker is currently detected may be transmitted as a part of the identification information through the marker, such as temperature, humidity, pollution index, noise information, and the like.
  • the mobile phone can trigger the corresponding service according to the environmental parameters it receives. For example, when a high environmental noise is detected, the ring volume of the mobile phone can be appropriately increased.
  • the identifier can also be designed to only periodically broadcast its simple basic identification information during normal operation.
  • the mobile phone receives its basic identification information, it sends a request message again.
  • the identifier Transmitting related detailed identification information according to the request information.
  • the basic identification information is the electronic serial number (ESN) of the identifier
  • the detailed identification information includes all the identification information of the identifier itself and the identified object, which can be object type, environmental parameters, and so on.
  • the basic identification information may also be communication address information of the identifier, and the address information may be static address information or dynamic address information.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
  • Telephone Function (AREA)

Description

一种移动电话智能业务实现方法及用于实施该方法的移动电话 技术领域
本发明涉及通信系统中移动终端, 特别是移动电话的智能业务实现方法及 用于实施该方法的移动电话。 背景技术
在现实生活中经常会遇到下列一些情况:
( 1 ) 旅客登上飞机, 在飞机起飞后, 需要让移动电话处于休眠状态 (即 不收发任何信号, 目前的移动电话只能用关机来解决); 由于业务的需要,在下 飞机后, 又需要唤醒移动电话 (事实上 目前的移动电话只能用开机来解决)。
(2)用户在听一个著名学者的讲座时, 需要让移动电话处于休眠状态, 比如, 让秘书台来处理; 在用户听完讲座后, 又要唤醒移动电话。
(3 ) 当旅客到达一个宾馆, 需要告知亲人自己已经入住宾馆; 在旅客离 开宾馆后, 又需要告知亲人自己又 "出门"了。
(4) 当用户回家时, 需要把来话转移到家里的电话上; 上班时, 又需要 将来话转移到办公室的电话上。
(5)用户在家里, 早晨 07: 00起床上班, 要移动电话闹钟设置为 07: 00 响铃; 在公司, 下午 14: 00结束午休, 准备开始下午的工作, 因此, 需要闹钟 设置为 14: 00响铃。
那么, 如何让移动电话知道是登上了飞机或是下了飞机?如何让移动电话 知道用户在听学术报告?如何让移动电话知道是到达宾馆或是离开宾馆?如何 让移动电话知道用户已经回家了, 或是已经到办公室上班了呢?并且, 在以上 各种情况下,移动电话都按照用户的意愿作出相应的响应, 比如,旅客登机后, 关闭移动电话的射频模块, 让移动电话休眠; 旅客下飞机后, 打开移动电话的 射频模块, 唤醒移动电话; 用户回家时, 将移动电话的入呼叫转移到家里电话 确 认 本 上, 同时, 将闹钟更改为早晨 07: 00; 用户上班时, 将移动电话的入呼叫转移 到办公电话上, 同时, 将闹钟更改为下午 14: 00; 在旅客进入宾馆后, 给家里 发一条短信息, 告知家人自己入住宾馆; 在用户听一个学术报告会时, 将移动 电话设置为振动模式, 或是将来话转到秘书台处理; 在学术报告会结束时, 再 将移动电话设置为振铃模式, 或取消转秘书台处理; 等等。针对第(4)点, 有 人提出了移动电话呼叫智能转移的实现方法, 按照该方法, 需要在想转移到的 固定电话的旁边, 或固定电话内设置无线标识器, 并在移动电话中设备相应的 无线装置。 移动电话通过内置的无线装置搜索所述固定电话的无线标识器, 接 收由固定电话标识器所发射的固定电话号码, 再结合移动电话中存储的屏蔽电 话列表, 选出相应的转移呼叫目的固定电话号码; 然后向移动网络发出呼叫转 移指令, 完成相应的呼叫转移设置。 该方法的缺陷在于, 仅仅限于移动电话呼 叫转移业务的自动实现, 无法实现移动电话的其它智能业务, 且需要在所述固 定电话的无线标识器里设置固定电话号码, 因此, 使用起来较为麻烦, 且应用 范围和领域较窄。 发明内容
针对现有技术的上述缺陷, 本发明要提供一种移动电话智能业务实现方法 及用于实施该方法的移动电话, 该方法能够实现较多的移动电话的智能业务, 具有较宽的应用范围和领域。
为达到上述目的, 本发明提供一种移动电话智能业务实现方法, 包括以下 步骤:
( 1 ) 设置标识器, 所述标识器为无线标识器, 用其标识希望标识的物理 对象; 所述标识器中存储有其自身和被标识对象的标识信息, 并通过无线方式 发射所述标识信息;
设置识别器, 所述识别器为无线识别器, 用于接收所述标识器所发射的标 识信息;在移动电话中设置无线识别器,并在移动电话内存储预设的触发记录;
(2)所述移动电话通过其识别器接收所述标识器所发射出来的标识信息, 当移动电话根据所收到的标识信息判断出该移动电话是刚进入所述标识器所在 的小区时, 所述移动电话执行所述预设的触发记录中在刚进入该小区时需要执 行的进场触发智能业务;
(3 ) 当该移动电话判断出是持续处于该标识器所在的小区时, 所述移动 电话结合当前时间, 判断执行所述预设的触发记录中在移动电话保持在该小区 中时需要执行的保持触发智能业务;
(4) 当该移动电话判断出是刚离开该标识器所在的小区时, 所述移动电 话执行所述预设的触发记录中在离开该小区时需要执行的退场触发智能业务。
在本发明所述的方法中, 所述保持触发智能业务可以是按预定时间间隔重 复执行的重复触发智能业务, 也可以是按预定时刻定时执行的定时触发智能业 务。
在本发明所述的方法中, 所述预设的触发记录包括分别与所述进场触发智 能业务、 退场触发智能业务、 重复触发智能业务、 定时触发智能业务对应的进 场触发记录、 退场触发记录、 重复触发记录、 定时触发记录。
在本发明所述的方法中, 所述小区可以是由一个标识器单独标识的单标识 器小区, 也可以是由多个标识器共同标识的多标识器并集小区, 也可以是由多 个标识器共同标识的多标识器交集小区。
在本发明所述的方法中, 所述智能业务包括移动电话的呼叫转移、 入呼叫 限制、 发短消息、 休眠、 唤醒、 闹钟设置、 铃音类型或音量设置。
在本发明所述的方法中, 还可增设鉴权认证步骤, 当所述移动电话通过其 识别器接收到所述标识器所发射出来的标识信息后, 如果判断是新搜寻到的新 标识器, 移动电话还需要先对该新标识器进行鉴权认证, 当鉴权认证合格时, 才进一步判断是否触发相应的智能业务。
为了执行上述方法, 本发明还提供一种移动电话, 其中设有一个识别器, 所述识别器中包括用于接收外部标识器所发射的短距离无线信号的接收模块; 所述无线接收模块从其收到的无线信号中解码出相应的标识信息, 并输出到移 动电话的微处理器进行分析处理。 所述识别器中可设置一个用于向外部标识器 发射短距离无线信号的发射模块。
由于本发明通过设置标识器和识别器的方式, 以及在标识器中存储标识器 和被标识对象的标识信息, 在含有识别器功能的移动电话中存储用户设置的触 发记录列表, 这样, 当移动电话进入到由多个标识器所确定的多标识器小区或 一个标识器所确定的单标识器小区时, 即可获取搜寻到的标识器存储的标识信 息, 再结合自己存储的触发记录列表中的各个进场触发记录, 即能确定要触发 的进场触发智能业务,由此可以触发移动电话提供的符合触发条件的各种业务。 与现有方法相比, 本发明具有以下优点:
1、 支持移动电话呼叫的智能转移, 具有移动电话呼叫智能转移方法的各 种优点。
2、 对移动电话提供的各种业务, 都可以触发。
3、 可提供用户 "二次开发接口", 让用户参与移动电话行为的设置, 使用 灵活方便, 适合各种层次的用户使用, 例如设置一些呼叫转移和预置一些自动 发短消息。
4、 对移动网络不产生任何影响, 因此实现简单、 成本低。
可见, 本发明所述方法能够触发较多的移动电话的智能业务, 具有较宽的 应用范围和领域。 附图说明
下面将结合附图及实施例对本发明作进一步说明, 附图中:
图 1是本发明所述方法的实施流程图。
具体实施方式
本发明所述的方法能够实现移动电话在不同的环境中, 做不同的事情, 即 完成移动电话的多种业务的自动触发, 使得移动电话可以因环境变化而变化。 比如实现呼叫转移的自动设定与取消设定, 改变铃音类型等等。 本发明通过采 用无线标识器和无线识别器, 由移动电话自行实现, 不需要对移动网络进行升 级。 通过本发明实现的移动电话的智能业务, 反过来还可以促进移动网络业务 的发展, 比如, 目前的一号通业务, 在移动电话走进办公室时, 触发限制入呼 叫业务, 可以免去移动电话和办公电话同时振铃的烦恼。 下面结合附图对本发明作进一步详细的描述。 图 1是本发明所述方法的实 施流程图。 按照图 1, 首先在步骤 1设置标识器和识别器, 所述标识器为无线 标识器, 用其标识希望标识的物理对象。 也就是说, 需要用设置好的无线标识 器在相关场所标识希望标识的物理对象, 在标识器中, 存储标识器和被标识对 象的标识信息。 本例中存储的标识信息参考下表一- 表一标识器中存储的标识信息
Figure imgf000007_0001
在表一中描述了标识器存储的该标识器的电子序列号 (ESN)、 分组码 (GroupNo), 被标识对象的类型(ObjClass)、被标识对象编号(ObjNum)、被 标识对象名称(ObjName), 以及标识器相对于被标识对象的位置偏移三元组信 息。
所述识别器为无线识别器, 用于接收标识器所发射的无线信号, 将识别器 内置于移动电话内部。 并在移动电话里存储用户预设置的进场触发记录列表、 退场触发记录列表、 重复触发记录列表、 定时触发记录列表。
本例中, 进场触发记录列表的格式参考下表二- 表二进场触发表
信息元素 长度 (BYTE) 描述
标识器 ESN匹配码 8 8位 16进制数, 用以通配一些标识器的电子序列号。
GroupNo 8 分组码。 Obj Class 被标识对象的类型码。
被标识对象名称 32 方便用户记忆和管理。 比如 "我的办公室"、 "我家", 泰 山的南天门等。 该号码由用户输入。 也可以从标识器获取, 并由用户改成自己喜欢的名字。
智能业务 char(128) 一个命令行; 比如: CF 26540808表示用 26540808作为呼叫 转移目的号码, 进行呼叫转移设置;
TrigerMode 1 0: 单标识器小区模式;
1: 多标识器并集小区模式;
默认情况为 TrigerMode = 1。 本例中, 退场触发记录列表的格式参考下表三- 表三退场触发表
信息元素 长度 (BYTE) 描述
标识器 ESN匹配码 8 (暂定 8位) 8位 16进制数, 用以通配一些标识器的电子序列号。
GroupNo 8 分组码。
ObjClass 被标识对象的类型码。
被标识对象名称 32 方便用户记忆和管理。 比如 "我的办公室"、 "我家", 泰 山的南天门等。 该号码由用户输入。 也可以从标识器获取, 并由用户改成自己喜欢的名字。
智能业务 char(128) —个命令行; 比如: NCF表示取消先前的转移设定。
TrigerMode 1 0: 单标识器小区模式;
1: 多标识器并集小区模式;
默认情况为 TrigerMode = 1。 本例中, 重复触发记录列表的格式参考下表四:
表四 重复触发表
信息元素 长度 (BYTE) 描述
标识器 ESN匹配码 8 8位 16进制数, 用以通配一些标识器的电子序列号。
GroupNo 8 分组码。
ObjClass 被标识对象的类型码。
被标识对象名称 32 方便用户记忆和管理。 比如 "我的办公室"、 "我家", 泰 山的南天门等。 该号码由用户输入。 也可以从标识器获取, 并由用户改成自己喜欢的名字。
InterVal 4 表示保持在一个小区内时, 重复产生一个事件的时间间隔。 智能业务 char(128) 一个命令行; 比如: SendSM "妈妈, 我还在图书馆读书"
TO 13823766888, 是一个小学生设置的给她妈妈发的短消 息, 将自己的行踪告诉妈妈, 好让妈妈放心。 本例中, 定时触发记录列表的格式参考下表五:
表五定时触发表
信息元素 长度 (BYTE) 描述 标识器 ESN匹配码 8 8位 16进制数, 用以通配一些标识器的电子序列号。
GroupNo 8 分组码。
ObjClass 被标识对象的类型码。
被标识对象名称 32 方便用户记忆和管理。 比如 "我的办公室"、 "我家", 泰 山的南天门等。 该号码由用户输入。 也可以从标识器获取, 并由用户改成自己喜欢的名字。
智能业务 char(128) 一个命令行; 比如: Play Clock Ring是指播放闹钟铃音。
TrigerTime 8 表示保持在一个小区内时, 定时产生一个事件的时间。
在前述表二、 表三、 表四和表五中, 每个记录都包括了标识器的电子序列 号 (ESN) 匹配码、 分组码 (GroupNo), 以及被标识对象的类型(ObjClass), 这三个域组成 "标识器——触发业务记录"匹配关键域, 简称匹配关键域。 移 动电话通过用标识器的标识信息来匹配这些触发记录列表中的各个匹配关键 域, 从中筛选出各种需要触发的智能业务。 在上述各个触发记录列表中:
1、标识器 ESN匹配码中可以使用 "? "、 "*"等通配符。其中, "*"表示 匹配任何电子序列号 ESN, "? "表示匹配电子序列号中某一位的任何可能值。 如 123 ? 56780000000000匹配从 123056780000000000到 123956780000000000 的 10个号码。
2、 分组码 GroupNo, 用于将数个标识器关联起来, 例如由分组码相同的 几个标识器共同组成一个多标识器小区。
3、 被标识对象类型码 ObjClass是指被标识器所标识的对象的分类, 比如 地域类型的有区域(亚、 非、 欧等)码、 国家码、 国内码等; 交通类型的有飞 机、 火车、 轮船、 游艇; 建筑类型的有学术报告厅、 会议室、 办公室、 家庭、 教室、 图书馆、 教堂、 酒店; 游乐场类型的有公园、 动物园、 海滨; 旅游景点 类型的有某寺院、 道观、 泰山顶、 少林寺等。
5、 Interval, 表示保持在一个小区内时, 需要重复执行某一智能业务的时 间间隔。
6、 智能业务, 表示移动电话支持的各种不同的业务, 包括呼叫转移、 限 制入呼叫、 发短消息、 休眠、 唤醒、 闹钟设置、 铃音类型或音量设置等等。 7、 TrigerTime, 表示保持在一个小区内时, 需要定时执行某一智能业务的 时间。
8、 TrigerMode, 触发模式,可以是单标识器小区模式, 多标识器并集小区 模式。
1 )对于任一进场触发记录:
当 TrigerMode = 0时, 对于匹配该触发记录的任一标识器, 当移动电话 第一次接收到该标识器所发射的标识信息时, 判断是刚进入由该标识器单独标 识的单标识器小区, 并执行进入该单标识器小区时需要执行的进场触发智能业 务。
当 TrigerMode = 1时, 对于匹配该触发记录的所有标识器, 当移动电话 第一次接收到其中任意一个标识器所发射的标识信息时, 判断是刚进入由这些 标识器共同标识的多标识器并集小区, 并执行进入该多标识器并集小区时需要 执行的进场触发智能业务。 比如说, 移动电话刚进入匹配关键域的多标识器并 集小区,第一次遇到该多标识器小区内的任一标识器 A时触发该记录设置的相 关业务。 此后, 如果移动电话还没有离开该多标识器并集小区, 即移动电话持 续在该多标识器并集小区, 又遇到其它标识器 B时, 并不会触发该记录设置的 相关业务。
2)对于任一退场触发记录:
当 TrigerMode = 0时, 对于匹配该触发记录的任一标识器, 当移动电话 进入由该标识器单独标识的单标识器小区后, 如果在预设的时间内没有收到该 标识器所发射的标识信息, 则判断是刚离开该单标识器小区, 并执行退出该单 标识器小区时需要执行的退场触发智能业务;
当 TrigerMode = 1时, 对于匹配该触发记录的所有标识器, 当移动电话 进入由这些标识器共同标识的多标识器并集小区后, 如果在预设的时间内没有 收到所有标识器中任何标识器所发射的标识信息时, 则判断是刚离开由所述多 标识器并集小区, 并执行退出该多标识器并集小区时需要执行的退场触发智能 业务。 只有移动电话离开了该多标识器并集小区时(即接收不到该记录的匹配 关键域所匹配的任何标识器的无线信号时),才触发相关业务, 即,如果一直在 该多标识器并集小区内部, 则并不是每离开一个标识器就触发该记录设置的相 关业务。
3)对于任一保持触发记录:
以在多标识器并集小区中为例, 当所述移动电话工作于多标识器并集小区 模式时, 对于匹配该触发记录的所有标识器, 当移动电话进入由这些标识器共 同标识的多标识器并集小区后, 如果移动电话在预设的时间内收到了所有标识 器中任一标识器所发射的标识信息, 则判断是保持在该多标识器并集小区; 对 于保持在该多标识器并集小区中时需要重复执行的重复触发智能业务, 每当其 预设的时间间隔到时, 执行一次该重复触发智能业务; 对于保持在该多标识器 并集小区中时需要定时执行的定时触发智能业务, 每当其预设的时刻到时, 执 行该定时触发智能业务。 比如: 用户设置移动电话保持在家里标识器小区时的 定时触发记录为在早晨 7: 00, 开始一个闹钟铃音, 以提示用户起床。 用户设 置移动电话保持在办公室标识器小区时的定时触发记录为在下午 14: 00, 开始 一个闹钟铃音, 以提示用户结束午休, 开始下午工作。
即使一个触发记录的匹配关键域在任何情况下都只匹配一个标识器, 仍然 可以设置该记录的触发模式为多标识器并集小区模式。 此时, 两种触发模式的 结果是一样的。 , 比如, 一架波音 777上配置了三个标识器, 分别装在机舱内的前、 中、 后 位置, 乘客要在手机里就乘坐波音 777飞机设置相关的触发记录。 由于乘客在 设置该记录时并不知道波音 777上配置多个触发器以及它们的标识信息, 仅知 道标识信息中的被标识对象的类型 ObjClass, 即被标识对象波音 777的对象类 型, 此时, 用户手机里可以作如下设置:
登上飞机时的进场触发记录: (ESN匹配码 =*, GroupNo=NULL (空), ObjClass=飞机类型码, ObjName= "飞机", 智能业务=给家人发短消息 +关 机, TrigerMode=l );
离开飞机时的退场触发记录: (ESN匹配码 =*', GroupNo=NULL (空), ObjClass=飞机类型码, ObjName= "飞机", 智能业务=开机 +给家人发短消 息, TrigerMode= l
对于这种设置, 乘客在登机后, 遇到机前的标识器 A时, 就触发"给家人 发短消息 +关机"业务; 期间, 如乘客从机头走到舱尾, 离开标识器 A的标识 范围, 进入标识器 B的标识范围, 再离开标识器 B的标识范围, 最后进入机舱 尾的标识器 C的标识范围, 这个过程中, 手机仍然处于休眠状态, 不会因为离 开标识器 A或 B而执行 "开机 +给家人发短消息"业务, 也不会因为进入标识 器 B或 C的标识小区而再次执行 "给家人发短消息 +关机"业务。
同样,乘客从机舱尾部经中部、头部走出飞机(假设还是从登机入口出来) 时, 只有在手机离开所有 A、 B、 C三个标识器的标识范围的并集区域(实际 上就是飞机本身) 时, 即三个标识器的信号都收不到时, 才会触发 "开机 +给 家人发短消息"业务。 上面的触发记录设置对于乘客乘坐任何波音 777飞机都 有效。 如图 1所示, 基于步骤 1, 移动电话内置的识别器在步骤 2搜寻标识器, 当移动电话进入到一个标识器的有效信号范围时, 移动电话能够接收到该标识 器的广播信号。
任何时候, 移动电话接收到一个标识器的广播信号时, 移动电话都会根据 获取的该标识器的标识信息, 进行分析处理。 分析的过程是根据标识器的标识 信息, 查看当前标识器列表中是否存在该标识器, 如果查找到, 则说明该标识 器不是新搜索到的, 此时, 移动用当前时间刷新该标识器最后一次接收信号的 时间。
如果在当前标识器列表中, 没有査找到该标识器, 则说明该标识器是新搜 索到的, 此时, 移动电话将该标识器加入到当前标识器列表, 而后, 移动电话 还要从进场触发记录列表中查找该标识器匹配的进场触发记录, 如果没有, 则 不执行任何进场触发智能业务。 如果匹配了迸场触发记录列表中相关的一些进 场触发记录, 则对于每一个进场触发记录, 移动电话还要在步骤 3判断是否是 刚进入小区, 判断因该记录的触发模式的不同而不同。 如果触发模式是单标识 器小区模式, 即是否 TrigerMode = 0, 若是则在步骤 4直接执行该进场业务; 若是多标识器并集小区模式, 即 TrigerMode = 1, 则分析移动电话是否刚进入 该触发记录的匹配关键域所匹配的多标识器并集小区, 若是, 则在步骤 4直接 执行该进场业务, 若不是, 则不执行该进场触发智能业务。
移动电话新搜索到一个标识器时, 还要用该新搜索到的标识器去激活 (Activate)自己保存的相关的保持触发列表, 即移动电话还要从重复触发记录 列表和定时触发¾录列表中查找该标识器匹配的重复触发记录和定时触发记录 等保持触发记录, 并激活这些査找到的保持触发记录。
在步骤 4之后, 移动电话内置的识别器与当前标识器列表中的标识器处于 握手状态, 或者移动电话内置的识别器处于对当前标识器列表中的标识器的无 线信号的侦测状态, 以判断移动电话是否离幵了一个标识器 (可以通过是否能 在指定的时间间隔内检测到标识器的信号得知。 这些信号可以是标识器返回的 包括握手应答信号在内的各种应答信号, 以及标识器的广播信号), 如果离开, 则移动电话首先将该标识器从当前标识器列表中删除, 而后, 移动电话还要从 退场触发记录列表中査找该标识器匹配的退场触发记录, 如果没有, 则不执行 任何退场触发智能业务。 如果匹配了退场触发记录列表中相关的一些退场触发 记录, 则对于每一个退场触发记录, 移动电话还要在步骤 5判断是否已经离开 小区, 判断因该记录的触发模式的不同而不同。 如果触发模式是单标识器小区 模式, 即是否 TrigerMode = 0, 若是则在步骤 6直接执行该退场业务; 若是多 标识器并集小区模式, 即 TrigerMode = 1, 则分析移动电话是否已经离开该触 发记录的匹配关键域所匹配的多标识器并集小区, 若是, 则在步骤 6直接执行 该退场业务, 若不是, 则不执行该退场触发智能业务。
以在多标识器并集小区中为例, 移动电话判断出离开一个标识器时, 还要 査找上述各个被激活的保持触发记录。 对于査找到的各个被激活的保持触发记 录, 移动电话首先将这些记录去激活 (Deactivate), 而后, 对这些刚刚去激活 的保持触发记录逐个进行如下处理: 用该记录保持触发记录去匹配当前标识器 列表中的各个标识器, 如果匹配了当前标识器列表中的某个标识器, 则说明移 动电话尚未离开该记录匹配的标识小区, 因此, 重新激活这些刚刚去激活的保 持触发记录。 实际当中, 移动电话通过定时检査当前标识器列表, 对于每个标识器, 移 动电话比较当前时间和最后一次接收到该标识器信号的时间, 如果时间差超过 了预设的时间值, 则移动电话认为离开了该标识器。
对于处于激活状态的重复触发记录,移动电话每经过一段间隔时间 Interval (Interval必需大于 0, 否则无效) 时, 就执行一次该重复触发智能业务。
对于处于激活状态的定时触发记录, 移动电话在指定的触发时间 TrigerTime时, 就执行一次该定时触发智能业务。
移动电话采用轮询的方式搜寻标识器, 如果搜寻到一个标识器, 则与之建 立连接, 然后从标识器获取标识信息; 然后, 执行上述相关处理过程。 在移动 电话与标识器建立连接后, 移动电话和标识器之间保持握手联系, 如果握手失 败达到一定次数、 或等待握手应答帧超时, 则说明移动电话已经超出了通信联 系的范围(例如蓝牙通信的距离可以设定为 5米),通信自然中断(在广播方式 下, 是通过探测标识器的广播信号的超时计时来进行判断是否通信中断的)。 在上述过程中, 如果对一个标识器既没有设置进场触发智能记录, 也没有 设置退场触发智能记录,也没有设置重复触发记录,也没有设置定时触发记录, 那么, 该标识器即为移动电话的非相关标识器。 相应地, 对于一个标识器, 只 要设置了四类触发业务的任何一种, 就称该标识器为移动电话的相关标识器。 移动电话还可以对其当前侦测到的标识器进行分类, 分成非相关标识器和相关 标识器, 如表六所示。
表六相关标识器列表
Figure imgf000014_0001
上表中, 每条记录的进场触发、 退场触发、 重复触发、 定时触发中, 必需 至少有一个为 1, 否则该标识器为非相关标识器。 在图 1所述的实施例中, 为了方便用户使用, 可对移动电话里各个触发记 录列表的设定提供如下功能:
1 )增加一个触发记录;
2)删除一个触发记录;
3) 修改一个触发记录;
4)清空触发记录列表;
5) 查询触发记录列表;
6)设置触发开关列表;
7) 获取当前区域中的所有标识器的标识信息列表; 该表同时应包含 "是 否新标识器"标志。 该标志 =0: 新标识器; 该标志 = 1 : 该标识器在相关标识 器列表或非相关标识器列表中已经存在。
8) 将其中的一个新标识器的标识信息的相关内容加入到移动电话的触发 记录列表中, 用以新增一个触发记录。
由于触发记录的匹配关键域信息(ESN、 GroupNo, ObjClass)可能很难输 入, 因此, 提供 7)、 8)功能, 可以免去用户完全重新输入匹配关键域倚息的 麻烦。 即用户可以在获取的标识信息基础上进行适当修改来完成触发记录的设 置。
移动电话还可以设置一些触发开关, 如表七所示。
表七触发开关列表格式
Figure imgf000015_0001
按照本例中的上述功能提供方式, 如果进场触发开关的状态为 0, 不再执 行所有的进场触发智能业务; 如果退场触发开关为 0 , 不再执行所有的退场触 发智能业务, 其它几项与此类似。
上述单标识小区是指一个标识器的有效信号覆盖区域, 在该区域内, 移动 电话能够获取标识器的标识信息。 上述多标识小区是指由满足一定条件的多个 标识器的有效信号覆盖区域的并集区域, 在该区域内, 移动电话至少能够从一 个满足所述条件的标识器处获取标识信息。 本发明可以用于大型超市员工在岗信息跟踪, 登山攀险运动的行踪监视 (运动员在登临险境时, 根本无法即时给后方发短消息, 因此, 必需提前预置 发短消息记录), 马拉松长跑运动的运动路线监控, 儿童跟踪等领域, 同时,对 于出差人员的跟踪, 可以让家人更加安心。
本发明的方法还可以实现如下功能。 例如在移动电话保存的用户设置的触 发记录列表中, 一个触发记录还可以包括允许触发时限或禁止触发时限信息。 当用户设置的一条触发记录中包括了限定允许触发的允许触发时限时, 移动电 话在执行进场触发智能业务、 退场触发智能业务或者保持触发智能业务时, 还 需要再判断当前时间是否在允许触发时限内, 是则执行相应的智能业务, 否则 不执行相应的智能业务。 当用户设置的一条触发记录中包括了禁止触发的禁止 触发时限时, 移动电话在执行进场触发智能业务、 退场触发智能业务或者保持 触发智能业务时, 还需要再判断当前时间是否在禁止触发时限内, 是则不执行 相应的智能业务, 否则执行相应的智能业务。
移动电话还可以对自己特别敏感的标识器迸行鉴权认证, 以防止可能的恶 作剧。 比如说, 用户提前将自己的 ID (即移动电话的 ESN) 和 KEY (假设 KEY=357468)保存在家里标识器相应的 "移动电话 ~~ KEY (密钥)对应关系" 列表中; 同时, 用户也将这个 KEY (假设 KEY-357468)和对应的标识器 ID (即 标识器 ESN)保存在自己的移动电话中相应的 "标识器 ~~ EY对应关系"列 表中。 这样, 当用户回家时, 其移动电话可以接收到家里的标识器信号, 移动 电话根据标识器 ESN号初步判断该标识器为自己家里的标识器, 于是, 移动电 话产生一个随机数, 连同自己的 ESN发送给标识器, 标识器接收到移动电话发 送的 ESN号和随机数后, 根据该移动电话的 ESN号从自己保存的移动电话 ESN 号和相应的 KEY的对应关系的列表中查出该移动电话的 KEY, 而后, 标识器用 移动电话发来的随机数和 EY进行加密运算 (由于加密算法有现成的公知技 术, 因此, 本文不对加密算法进行特别阐述) 并将经过加密算法运算的结果返 回给移动电话。 移动电话也会根据所述随机数和自己保存的对应于该标识器的
KEY进行同样的加密运算, 并比较这个运算结果和标识器返回的结果是否相 同, 如果相同, 则确认该标识器就是自己家里的标识器; 否则认为该标识器不 是家里的标识器, 即可能是恶作剧者所为,并将其标记为黑名单标识器。当然, 实际当中, 还有其它各种各样的鉴权认证的过程和方法, 这里不再一一阐述。
以上, 对于不同的标识器, 用户可以在其中设置保存不同的 KEY。 另外用 户为了简便起见, 还可以使用一个统一的 KEY, 适用于所有敏感的标识器, 这 样, 移动电话中就不需要设置 "标识器一~ EY对应关系"列表, 而仅仅设置 一个敏感标识器列表和一个公共的 KEY即可。
可以在移动电话中设置一个敏感标识器表, 以指明移动电话需要对哪些标 识进行鉴权认证。 比如, 假设用户认为家里标识器, 办公室标识器这两个最常 用的标识器都是自己的敏感标识器, 那么, 用户就可以将, 家里标识器, 办公 室标识器分别加入自己的敏感标识器列表, 同时将对应于各个标识器的 KEY和 自己的移动电话 ESN分别保存在家里标识器和办公室标识器里。
对于敏感标识器, 增加了鉴权认证流程后, 只有那些鉴权认证通过的标识 器才能够触发相应智能业务。 另外, 除了进入时的鉴权认证外, 当移动电话持 续处于某一小区时,还可以定期执行所述鉴权认证, 以防止不法之徒中途攻击。
另外, 标识器中的被标识对象的类型还可以包括多对象类型 (MultiObj ), 即用一个标识器标识其范围小区内的多个对象, 例如一栋大楼内的商场、 咖啡 厅、 会议室等, 此时, 标识信息包括标识器的电子序列号 (ESN) 和分组码 (GroupNo), 被标识对象的个数, 以及由多个被标识对象的类型 (ObjClass)、 编号 (ObjNum)、 名称 (ObjName) 以及位置偏移三元组信息组成的列表。 移 动电话可以根据列表中的对象来筛选出自己所使用的对象信息。
实际当中, 还可以设置多标识器交集小区触发模式, 此时, 该小区是指, 由满足一定条件的多个标识器的信号覆盖区域的交集区域, 在该区域内, 移动 电话能够获取满足所述条件的全部标识器的标识信息。 这对于使用多个标识器 联合进行更加精确的定位, 很有意义。 这种情况相当于设置一组标识器共同触 发一个业务, 这时候, 只有当所有该组的标识器都被移动电话同时识别到时, 才会触发所设置的进场或保持智能业务, 当离开任一个标识器时, 则执行退场 智能业务。 在设置多标识器交集小区触发模式时, 必需确定这些标识器, 这时 候, 触发记录中, 匹配关键域里只有 ESN匹配码有意义。 并且 ESN匹配码所匹 配的标识器的个树应该足够的少, 否则, 移动电话会很难在某一个时间段内同 时获取这些标识器的信息。 当移动电话工作于多标识器交集小区模式时, '触发 记录可以是由多个标识器的电子序列号 (ESN) 组成的电子序列号列表, 当然 还包括智能业务等信息, 移动电话同时接收到该列表中的所有标识器时, 才判 断是否执行相应的智能业务。对于每一个触发记录,所述移动电话还可工作于多 标识器交集小区模式, 当移动电话工作于多标识器交集小区模式时, 所述触发 记录中至少包括由多个标识器的信息组成的标识器信息列表, 所述标识器信息 列表中的内容可以是所述多个标识器的电子序列号。
另外, 还可将当前所检测到的标识器所在环境的参数信息作为标识信息的 一部分, 通过标识器发射出来, 例如温度、 湿度、 污染指标、 噪声信息等。 移 动电话可根据其收到的环境参数触发相应的业务, 例如当检测到环境噪声较高 时, 可适当调高移动电话的铃声音量。
另外, 还可将标识器设计为在正常工作时, 只定时广播其简单的基本标识 信息, 当移动电话收到其基本标识信息后, 再发送一个请求信息, 标识器接到 请求信息之后, 再根据所述请求信息发射相关的详细标识信息。 例如, 基本标 识信息为标识器的电子序列号(ESN),而详细标识信息包括标识器自身和被标 识对象的所有标识信息, 可以是对象类型、 环境参数等。 基本标识信息还可以 是标识器的通信地址信息, 该地址信息可以是静态地址信息, 也可以是动态地 址信息。

Claims

权 利 要 求 书
1、 一种移动电话智能业务实现方法, 其特征在于, 包括以下步 骤:
( 1 )设置标识器, 所述标识器为无线标识器, 用其标识希望标 识的物理对象; 所述标识器中存储有其自身和被标识对象的标识信 息, 并通过无线方式发射所述标识信息;
设置识别器,所述识别器为无线识别器,用于接收所述标识器所 发射的标识信息;在移动电话中设置无线识别器,并在移动电话内存 储预设的触发记录;
(2)所述移动电话通过其识别器接收所述标识器所发射出来的 标识信息,当移动电话根据所收到的标识信息判断出该移动电话是刚 进入所述标识器所在的小区时,所述移动电话执行所述预设的触发记 录中在刚进入该小区时需要执行的进场触发智能业务。
2、 根据权利要求 1所述的方法, 其特征在于, 还包括:
( 3 ) 当该移动电话判断出是持续处于该标识器所在的小区时, 所述移动电话结合当前时间,判断执行所述预设的触发记录中在移动 电话保持在该小区中时需要执行的保持触发智能业务。
3、 根据权利要求 1或 2所述的方法, 其特征在于, 还包括: (4) 当该移动电话判断出是刚离开该标识器所在的小区时, 所 述移动电话执行所述预设的触发记录中在离开该小区时需要执行的 退场触发智能业务。
4、 根据权利要求 2所述的方法, 其特征在于,
所述保持触发智能业务可以是按预定时间间隔重复执行的重复 触发智能业务, 也可以是按预定时刻定时执行的定时触发智能业务。
5、 根据权利要求 4所述的方法, 其特征在于, 所述预设的触发 记录包括分别与所述进场触发智能业务、退场触发智能业务、重复触 发智能业务、定时触发智能业务对应的进场触发记录、退场触发记录、 重复触发记录、 定时触发记录。
6、 根据权利要求 1-5中任一项所述的方法, 其特征在于, 所述 小区可以是由一个标识器单独标识的单标识器小区,也可以是由多个 标识器共同标识的多标识器并集小区,也可以是由多个标识器共同标 识的多标识器交集小区。
7、 根据权利要求 6所述的方法, 其特征在于, 对于一个进场触 发记录或退场触发记录, 所述移动电话可工作于单标识器小区模式, 或多标识器并集小区模式;
7-1)对于任一进场触发记录:
当所述移动电话工作于单标识器小区模式时,对于匹配该触发记 录的任一标识器,当移动电话第一次接收到该标识器所发射的标识信 息时, 判断是刚进入由该标识器单独标识的单标识器小区, 并执行进 入该单标识器小区时需要执行的进场触发智能业务;
当所述移动电话工作于多标识器并集小区模式时,对于匹配该触 发记录的所有标识器,当移动电话第一次接收到其中任意一个标识器 所发射的标识信息时,判断是刚进入由这些标识器共同标识的多标识 器并集小区,并执行进入该多标识器并集小区时需要执行的进场触发 智能业务;
7-2)对于任一退场触发记录:
当所述移动电话工作于单标识器小区模式时,对于匹配该触发记 录的任一标识器,当移动电话进入由该标识器单独标识的单标识器小 区后, 如果在预设的时间内没有收到该标识器所发射的标识信息,则 判断是刚离开该单标识器小区,并执行退出该单标识器小区时需要执 行的退场触发智能业务;
当所述移动电话工作于多标识器并集小区模式时,对于匹配该触 发记录的所有标识器,当移动电话进入由这些标识器共同标识的多标 识器并集小区后,如果在预设的时间内没有收到所有标识器中任何标 识器所发射的标识信息时, 则判断是刚离开由所述多标识器并集小 区, 并执行退出该多标识器并集小区日 ί需要执行的退场触发智能业 务。
8、 根据权利要求 6或 7所述的方法, 其特征在于, 对于任一保 持触发记录,所述移动电话可工作于单标识器小区模式,或多标识器 并集小区模式; 当所述移动电话工作于多标识器并集小区模式时,对 于匹配该触发记录的所有标识器,当移动电话进入由这些标识器共同 标识的多标识器并集小区后,如果移动电话在预设的时间内收到了所 有标识器中任一标 i只器所发射的标识信息,则判断是保持在该多标识 器并集小区;
对于保持在该多标识器并集小区中时需要重复执行的重复触发 智能业务,每当其预设的时间间隔到时,执行一次该重复触发智能业 务;
对于保持在该多标识器并集小区中时需要定时执行的定时触发 智能业务, 每当其预设的时刻到时, 执行该定时触发智能业务。
9、 根据权利要求 4-8中任一项所述的方法, 其特征在于, 所述 标识信息包括: 标识器的电子序列号 (ESN)和分组码 (GroupNo), 被标识对象的类型 (ObjClass)、 被标识对象编号 (ObjNum)、 被标 识对象名称(ObjName) 以及标识器相对于被标识对象的位置偏移三 元组信息。
10、 根据权利要求 9所述的方法, 其特征在于,
所述进场触发记录包括标识器的电子序列号(ESN)匹配码和分 组码(GmupNo), 被标识对象的类型 (ObjClass)、 需要触发的智能 业务、 以及触发模式 (TrigerMode);
所述退场触发记录包括标识器的电子序列号(ESN)匹配码和分 组码(GroupNo), 被标识对象的类型 (ObjClass)、 需要触发的智能 业务、 以及触发模式 (TrigerMode);
所述重复触发记录包括标识器的电子序列号(ESN)匹配码和分 组码(GroupNo),被标识对象的类型(ObjClass)、时间间隔(InterVal)、 需要触发的智能业务;
所述定时触发记录包括标识器的电子序列号(ESN)匹配码和分 组码 (GroupNo), 被标识对象的类型(ObjClass)、 需要触发的智能 业务、 触发时间。
11、 根据权利要求 1-8中任一项所述的方法, 其特征在于, 所述 智能业务包括移动电话的呼叫转移、 入呼叫限制、 发短消息、 休眠、 唤醒、 闹钟设置、 铃音类型或音量设置。
12、 根据权利要求 10所述的方法, 其特征在于, 所述预设的触 发记录中还包括用于限定允许触发某一智能业务的允许触发时限,移 动电话在执行进场触发智能业务、退场触发智能业务或者保持触发智 能业务时,还需要再判断当前时间是否在允许触发时限内,是则执行 相应的智能业务, 否则不执行相应的智能业务。
13、 根据权利要求 12所述的方法, 其特征在于, 所述预设的触 发记录中还包括用于设定禁止触发某一智能业务的禁止触发时限,移 动电话在执行进场触发智能业务、退场触发智能业务或者保持触发智 能业务时,还需要再判断当前时间是否在禁止触发时限内,是则不执 行相应的智能业务, 否则执行相应的智能业务。
14、 根据权利要求 1-13中任一项所述的方法, 其特征在于, 所 述移动电话通过其识别器接收到任一标识器所发射出来的标识信息 后,如果判断是新搜寻到的标识器,还需要对该新标识器进行鉴权认 证, 当鉴权认证合格时, 才进一步判断是否触发相应的智能业务; 当 鉴权认证不合格时, 移动电话将该标识器作为无效标识器。
15、 根据权利要求 14所述的方法, 其特征在于, 所述鉴权认证 包括以下步骤: 移动电话根据其识别器所收到的新搜寻到的标识器的标识信息, 向该标识器发送移动电话身份信息和一个随机数,并根据所述随机数 和自身保存的密钥生成第一加密数;
标识器根据其收到的移动电话身份信息,查找与之对应密钥,如 找到则根据该密钥和所述随机数生成第二加密数,再发送给所述移动 电话;
移动电话将其生成的第一加密数与其收到的第二加密数进行对 比, 如两者一致, 则表示该标识器鉴权合格。
16、 根据权利要求 14所述的方法, 其特征在于, 当移动电话持 续处于某一标识器的有效信号范围时,会定期对该标识器执行所述鉴 权认证。
17、 根据权利要求 1-8中任一项所述的方法, 其特征在于, 所述 标识信息包括标识器的电子序列号 (ESN) 和分组码 (GroupNo), 被标识对象的个数 (ObjCount) , 以及由多个被标识对象的类型
(ObjClass)、 编号(ObjNum)、 名称(ObjName) 以及位置偏移三元 组信息组成的列表。
18、 根据权利要求 1-17中任一项所述的方法, 其特征在于, 所 述标识器还包括一个环境信息监测模块, 用于监测环境的参数信息; 所述标识信息还包括标识器当前所检测到的环境参数信息。
19、 根据权利要求 18所述的方法, 其特征在于, 所述环境监测 模块可以监测环境的温度、湿度、污染指标或噪声信息中的一个或多 个; 所述环境参数信息可以是温度、湿度、 污染指标或噪声信息中的 一个或多个。
20、 根据权利要求 1-19中任一项所述的方法, 其特征在于, 所 述标识器定时广播其基本标识信息,当所述移动电话收到该基本标识 信息后, 会发送一个请求信息, 标识器接到请求信息之后, 再根据所 述请求信息发射相关的详细标识信息。
21、 根据权利要求 20所述的方法, 其特征在于, 所述基本标识 信息为标识器的电子序列号(ESN), 所述详细标识信息包括标识器 自身和被标识对象的所有标识信息。
22、 根据权利要求 20所述的方法, 其特征在于, 所述基本标识 信息为标识器的通信地址信息, 所述地址信息可以是静态地址信息, 也可以是动态地址信息。
23、 根据权利要求 1-19中任一项所述的方法, 其特征在于, 当 移动电话保持在某一个标识器的有效信号范围时,所述移动电话会主 动向该标识器发送一个请求信息,该标识器接到请求信息之后,再根 据所述请求信息发射相关的标识信息。
24、根据权利要求 6所述的方法, 其特征在于, 对于每一个触发 记录,所述移动电话还可工作于多标识器交集小区模式, 当移动电话 工作于多标识器交集小区模式时,所述触发记录中至少包括由多个标 识器的信息组成的标识器信息列表,所述标识器信息列表中的至少包 括所述多个标识器的电子序列号。
25、一种用于执行权利要求 1-24中任一项所述方法的移动电话, 其特征在于,所述移动电话中还设有一个识别器,所述识别器中包括 用于接收外部标识器所发射的短距离无线信号的接收模块;所述无线 接收模块从其收到的无线信号中解码出相应的标识信息,并输出到移 动电话的微处理器进行分析处理。
26、 根据权利要求 25所述的移动电话, 其特征在于, 所述识别 器中还包括用于一个向外部标识器发射短距离无线信号的发射模块。
PCT/CN2003/000569 2002-07-19 2003-07-17 Procede de mise en oeuvre de services intelligents sur un telephone mobile et telephone mobile mettant ce procede en oeuvre WO2004010723A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
US10/521,699 US7606584B2 (en) 2002-07-19 2003-07-17 Method for performing services of a mobile phone and a mobile phone applying the method
AU2003248221A AU2003248221A1 (en) 2002-07-19 2003-07-17 An implementing method for intelligent services of the mobil telephone and a mobile telephone for implementing the method

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN02125255.6 2002-07-19
CNB021252556A CN100438664C (zh) 2002-07-19 2002-07-19 一种基于标识器的移动电话智能业务触发实现方法

Publications (1)

Publication Number Publication Date
WO2004010723A1 true WO2004010723A1 (fr) 2004-01-29

Family

ID=4745496

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2003/000569 WO2004010723A1 (fr) 2002-07-19 2003-07-17 Procede de mise en oeuvre de services intelligents sur un telephone mobile et telephone mobile mettant ce procede en oeuvre

Country Status (4)

Country Link
US (1) US7606584B2 (zh)
CN (1) CN100438664C (zh)
AU (1) AU2003248221A1 (zh)
WO (1) WO2004010723A1 (zh)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8166422B2 (en) * 2003-11-21 2012-04-24 Kyocera Corporation System and method for arranging and playing a media presentation
US20080057987A1 (en) * 2006-09-06 2008-03-06 Agere Systems Inc. Location message coordinator, method of coordinating a location message and a cellular system employing the same
US20080294798A1 (en) * 2007-05-23 2008-11-27 Lynch Thomas W Portable electronic device management
US9019068B2 (en) * 2010-04-01 2015-04-28 Apple Inc. Method, apparatus and system for automated change of an operating mode relating to a wireless device

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0905990A1 (en) * 1997-09-02 1999-03-31 Telefonaktiebolaget Lm Ericsson Method and device in telecommunication networks for manual routing of calls
US5926760A (en) * 1995-07-31 1999-07-20 Lucent Technologies, Inc. System for providing features for a land-line supported private base station operable in a cellular system
DE19816859A1 (de) * 1998-04-16 1999-10-21 Deutsche Telekom Ag Verfahren zur Steuerung von persönlichen Kommunikationsservices für Telekommunikationsanlagen

Family Cites Families (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FI92782C (fi) * 1993-02-09 1994-12-27 Nokia Mobile Phones Ltd Matkapuhelimien asetusten ryhmittely
WO1996015517A2 (en) * 1994-11-02 1996-05-23 Visible Interactive Corporation Interactive personal interpretive device and system for retrieving information about a plurality of objects
US5903833A (en) * 1996-08-30 1999-05-11 Telefonaktiebolaget L M Ericsson Method and apparatus for routing calls by remote control
JP3857388B2 (ja) * 1997-06-27 2006-12-13 富士通株式会社 移動通信端末
US6233448B1 (en) * 1998-07-22 2001-05-15 Ericsson Inc. System, method and apparatus for automatic feature activation/deactivation based upon positioning
US6549625B1 (en) * 1999-06-24 2003-04-15 Nokia Corporation Method and system for connecting a mobile terminal to a database
GB0006032D0 (en) * 2000-03-13 2000-05-03 Ncr Int Inc Access to information networks by mobile
US6937869B1 (en) * 2000-05-10 2005-08-30 Sprint Spectrum L.P. Route planning system for mobile telecommunications
US6975874B1 (en) * 2000-06-09 2005-12-13 International Business Machines Corporation Portable phone that changes function according to its self-detected geographical position
JP2002095064A (ja) * 2000-07-10 2002-03-29 Rohm Co Ltd 通信機能付き携帯情報機器、その携帯情報機器を制御するシステム、及びその携帯情報機器を制御する制御装置を備えた機器
US6782253B1 (en) * 2000-08-10 2004-08-24 Koninklijke Philips Electronics N.V. Mobile micro portal
US6694143B1 (en) * 2000-09-11 2004-02-17 Skyworks Solutions, Inc. System for using a local wireless network to control a device within range of the network
US6847823B2 (en) * 2000-12-20 2005-01-25 Nokia Corporation System and method for accessing local services with a mobile terminal
US6867733B2 (en) * 2001-04-09 2005-03-15 At Road, Inc. Method and system for a plurality of mobile units to locate one another
US6823257B2 (en) * 2002-01-04 2004-11-23 Intel Corporation Non-GPS navigation

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5926760A (en) * 1995-07-31 1999-07-20 Lucent Technologies, Inc. System for providing features for a land-line supported private base station operable in a cellular system
EP0905990A1 (en) * 1997-09-02 1999-03-31 Telefonaktiebolaget Lm Ericsson Method and device in telecommunication networks for manual routing of calls
DE19816859A1 (de) * 1998-04-16 1999-10-21 Deutsche Telekom Ag Verfahren zur Steuerung von persönlichen Kommunikationsservices für Telekommunikationsanlagen

Also Published As

Publication number Publication date
US20050255863A1 (en) 2005-11-17
CN100438664C (zh) 2008-11-26
US7606584B2 (en) 2009-10-20
AU2003248221A1 (en) 2004-02-09
CN1388725A (zh) 2003-01-01

Similar Documents

Publication Publication Date Title
US6967576B2 (en) Item location tracking system and method
US8023895B2 (en) Location system for Bluetooth® enabled devices
US9332490B2 (en) Method and apparatus for automatically connecting short range wireless network in portable terminal
CN104639907B (zh) 一种基于移动终端的智能安防方法及系统
CN1830176B (zh) 协调多个网络接口的服务的方法与设备
KR101319720B1 (ko) 모드 변경을 무선 디바이스들에게 제공하는 시스템 및 방법
KR20050022023A (ko) 절전형 이동성 인지 시스템 및 방법
US20090080350A1 (en) Mobile radio network
US20190380007A1 (en) Tracking Device Location Determination in a Communicatively-Restricted Environment
WO2006118023A1 (ja) 携帯用電子機器,セキュリティシステムおよび携帯用電子機器の動作許可範囲決定方法
US6097305A (en) Dialogic style RF guidance system for a visually handicapped person and its control method
CA2551832A1 (en) Proximity triggered job scheduling system and method
WO2016134559A1 (zh) 一种基于固定位置的信息提示系统和方法
WO2004003703A2 (en) A power saving mobility aware system and method
US20070042749A1 (en) Portable loss prevention system
CN105812550A (zh) 语音电话防骚扰的方法、语音电话防骚扰的装置及终端
WO2004010723A1 (fr) Procede de mise en oeuvre de services intelligents sur un telephone mobile et telephone mobile mettant ce procede en oeuvre
CN206058435U (zh) 一种基于无线网络的防盗系统
CN106204999A (zh) 一种基于无线网络的防盗系统
JP2001025070A (ja) 無線通信システム
JP2005086451A (ja) 無線移動端末、無線lanエリア通知サーバ及び無線通信システム
JP2003259460A (ja) 無線通信端末制御システムおよび方法
KR101623881B1 (ko) 무선신호 송출기를 이용한 이동체 모니터링 방법, 시스템 및 단말
JP6944032B1 (ja) 状態判定装置、状態判定システム、及びプログラム
WO2005066587A1 (en) Proximity triggered job scheduling system and method

Legal Events

Date Code Title Description
AK Designated states

Kind code of ref document: A1

Designated state(s): AE AG AL AM AT AU AZ BA BB BG BR BY BZ CA CH CN CO CR CU CZ DE DK DM DZ EC EE ES FI GB GD GE GH GM HR HU ID IL IN IS JP KE KG KP KR KZ LC LK LR LS LT LU LV MA MD MG MK MN MW MX MZ NO NZ OM PG PH PL PT RO RU SC SD SE SG SK SL SY TJ TM TN TR TT TZ UA UG US UZ VC VN YU ZA ZM ZW

AL Designated countries for regional patents

Kind code of ref document: A1

Designated state(s): GH GM KE LS MW MZ SD SL SZ TZ UG ZM ZW AM AZ BY KG KZ MD RU TJ TM AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IT LU MC NL PT RO SE SI SK TR BF BJ CF CG CI CM GA GN GQ GW ML MR NE SN TD TG

121 Ep: the epo has been informed by wipo that ep was designated in this application
WWE Wipo information: entry into national phase

Ref document number: 10521699

Country of ref document: US

122 Ep: pct application non-entry in european phase
NENP Non-entry into the national phase

Ref country code: JP

WWW Wipo information: withdrawn in national office

Country of ref document: JP