JPS61502559A - Micro opto audio magneto chromo electronic compass - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Micro Opto Audio Magnetochromo Electronic Compass The present invention is directed to the technical field classified under the term telematics, i.e. It relates to techniques aimed at remote retransmission and processing.

Preferred embodiments of the invention provide orientation/orientation, direction, identification, guidance, Applications within and support are described. The present invention generally broadens the horizon of communication. and respond promptly to special requests.

A new type of medium or media used as public property.

A new guide to changing the language of traffic lights.

A new memory that gives messages to cards.

A new support that provides publicity as a service.

A new tool that enables selective identification.

A new compass that automatically provides direction.

The present invention can simultaneously meet the requirements of urban, rural and indoor locations, and environment, used with all motion or power traction means.

Information-oriented media. The present invention improves the relationship between public services, administration, and users. Optimize the use of the road network and the use of motor vehicle road guidance as changes that can be made; Improve road driving and safety.

Personal guide. 1 destination, shops, services, hotels, emergency hospitals, meeting places, mani Find the direction and distance to find the estate, landscape, work place or leisure facility. give.

One company at the end of the industrial area, a related autobank, an open railway station , a stand in the maze of expectations, one thing in the three-dimensional maze of the new urban area I will guide you to the office...

Regional memory. During your travels and at points of interest to you, Results, local news, weather, advice... all secured, road congestion , and will tell you how the roads are bypassed.

Help with advertising, show you the best prices for the products you're looking for, and connect you to the nearest point of sale. During this time you will travel through the nine regions and make you a specialist. I'll show you where.

professional tools. Analyze value with telemetry and remote diagnostics to separate products under the best conditions. gives the possibility of rediscovering it in a similar manner.

The new compass of the 21st century is to connect the individual to the entire environment, the environment to the individual, and individuals to each other. , tie up without cables.

Is any method of orientation, identification or marking mechanical? Also, regardless of whether it is electronic, it cannot be compared with the present invention.

In fact, the present invention uses different and complementary transmission and measurement processes to It utilizes the propagation of electromagnetic waves between a transmitter and a receiver.

1) Periodic movement of the carrier frequency which also manages the telemetry function through phase deviation. as well as multidirectional transmission of digitized information.

2) A new thin-layer comparator that provides orientation by determining the direction of the earth's magnetic field. vinegar.

3) Transmission by standardized frequency modulation according to conventional techniques.

Lasers or ultra-high frequency (UHF) transmitters target specific areas of the nervous system. be placed in appropriately selected locations to provide coverage. These transmitters transmit data All information from the base is sent sequentially. This information flow is approximately 900,000 times per second. It is sent by the sending amount of 00-bit numerical signal.

In parallel, frequency modulation transmitters were installed to cover approximately 90 square meters of the area. It will be done. Transmitters are traditionally spread by FM (for regions within the country, public and/or private networks for managing the periodicity of primary emissions. ).

A separate portable receiver in the form of a credit card is available to the user. There is. They display all of the following through their loudspeakers:

- Automatic display of public institution information.

This information is used as a load approved by the receiver when transmitting all road guide information. from a local transmitter or from successive adjacent transmitters.

− In these programming, direction, government, profession, commerce, travel, culture - Information on sports, leisure, etc. (programming information). These information , the local FM transmission authorized by the receiver when transmitting the requested information. from a transmitter or from successive adjacent transmitters.

One receiver uses a single Only one transmission source is required. There is no external antenna and the weight is less than 1002 Ru.

- The receiver can be used to send messages to groups of users as well as only individuals without disturbing others. and select information found to be important for the occupational category.

This information is selective and can be vastly expanded if specific applications are pursued. ), or by automatic selection of public institution information, or if you do not want the hassle of operation. Limited by pre-programming of human preference data.

Receivers can be used in car radios, data processing equipment on ships, and digital computers in cars. - or can be connected to many information devices and is autonomous.

The present invention is useful for communications within buildings, coastal navigation, rail transportation, and numerous other applications. I have a purpose.

The present invention can be applied to public facilities, commercial and professional institutions at the same time in the following manner. can be incorporated into one's wishes.

- The primary purpose of this new compass is to ensure road traffic safety and to serve as a guide. and improve the relationship between public services, government and user citizens. There is a particular thing.

The second purpose of new media is to provide new services, especially those in front of the wind. Promoting - Providing new public-commercial support.

The third purpose of the new means of communication is that it is especially suitable for telemetry, remote classification and remote diagnosis. The goal is to create new professional tools that can be used in a variety of ways.

These three ingredients are Establishing a national network along with the ``factual standards'' that form the basis of standardization of a system. installed, - For the public, initial cost buffering and national transmitter maintenance 7-inanshin Gu.

In the totally feasible interdependence of each application sector, the production at large.

Furthermore, the color language for establishing the interaction between the user and the invention can be used in all languages. This is a concept that can be realized at any time.

The main device of operation of the invention is the frequency and pulse encoding that allows the telemetry function. (PCM) unidirectional modulation liaison/ and a system that determines the direction of the earth's magnetic field. Based on usage.

Traditionally, the following categories of methods for propagating electromagnetic radiation are known: 1) Standardized method (AM%FM%88F (1PM, PCM.

The electromagnetic radiation flux modulated according to It becomes a carrier of the transmitted information chain.

According to a modified example, in order to transmit multiple mutually independent information chains at the same time, the same Two or more different modulation methods can be applied to the radiant flux.

2) electromagnetic radiation flux passing through or emitted by the substrate to be diagnosed; is analyzed by the measurement system to derive one or more properties of the substrate. A diagnostic system that makes it possible to

The diagnostic function involves using a reference spectrum transmitted from a known source by the receiver. Received energy spectrum (amplitude A1 phase φ as a function of wavelength λ) t- It is necessary to compare.

The complex amplitude of the radio wave received by the receiver at time t is Because the propagation speeds of the various pulsating components are different, the broadband flux, i.e. the spectrum, is Bundles spread over a wide pulsating region ω are usually not used for remote communication and are used in close clinical applications. used only for

The present invention explores the phase shift of a flux of electromagnetic radiation passing through a medium. This medium is The Earth's atmosphere, which is separate from all receivers and transmitters, also receives the radiation applicator. Even if the substrate is separated from the transmitter, if the substrate forms a transmitter, the substrate material itself Good too. According to conventional technology, absorption due to the attenuation of the amplitude of a flux of electromagnetic waves passing through the atmosphere is To the best of the inventor's knowledge, only the following two cases have been studied.

1) Measurement of water vapor concentration in the atmosphere at high altitudes.

2) the length (in this case, the distance separating each receiver from the transmitting source), A short range wireless radio device utilized to measure at least one property of a medium through which it passes. Confidentiality of the story.

The radiation emitted by the source is partially absorbed by the passing atmosphere, and / or dispersed, the frequency of the radiation source must be chosen from one of the following bands: Must be.

1) Oxygen triplet 3σρ absorption band of 6O-tchz (UHF band).

2) &425. Infrared and red absorption bands of oxygen at α7624 and α688μ.

3) Absorption band in the ultraviolet region of nitrogen and oxygen of 1lL145-α204μ.

An example of a radiation source that can be used as a transmitter is fluoride, which emits at 11195μ. Eximer lasers such as argon (ArF) type lasers, traveling wave tubes, and IMP Examples include ETT diode and GUNN diode type UHF band oscillators.

The source is the geographical location within which the receiver user is moving with respect to the transmitter. Suitable for transactions of sequential information flow in digital form, especially representing maps of points. It is modulated according to one method known in the art.

Angular information is determined at the level at which the receiver can be located with respect to absolute geographic reference. be obtained. This is achieved in two ways, separate or sometimes complementary. .

1) Encoding of the level of the radiant flux itself in the angle of rotation that dictates each inversion by the mirror.

This is a linear or circularly polarized bundle2 and a surface structure for reflected electromagnetic waves. requires use with a mirror that exhibits anisotropy.

2) A new thin-layer electromagnetic-electronic compass helps determine the correct angle to the earth's magnetic field. The direction shall be determined at the receiver level.

According to a first aspect of the invention, at least one transmitter and at least one portable a device for transmitting and receiving information via electromagnetic waves, in the form of a separate receiver; , communication, orientation, identification, telemetry, remote diagnosis, coding and programming , the application of which is based on the use of a wide area radiant flux and the transmission of a transmitter. a range of frequencies in which the transmission frequency at least partially covers the absorption band of the Earth's atmosphere; change in wavenumber and at least two different frequencies in the spectrum of radiation. The differential absorption and/or phase shift of the radiation in wavenumbers causes the receiver (2) to By being thoroughly explored and analyzed, the properties of the radiation-conducting medium are determined, and the medium is , even in an atmosphere that separates the radiation applicator from the receiver, the substrate forms a transmitter. If so, it may be the base itself, and the receiver (2) should take the earth's magnetic field into account. % A transmitting/receiving device and its applications are provided. As a result of this configuration, The receiver (2) uses this system to detect the magnetic polarity of oxygen in the Earth's atmosphere. Analyze absorption.

By this analysis, the receiver (2) calculates the distance Lt from the transmitter (1).

The receiver (2) receives the signal from the single transmitter (1) as a function of this measurement and the Earth's atmosphere. along with the direction.

According to another feature of the invention, the receiver determines its position in n-dimensional space. The direction of the earth's magnetic field forms one of the n measurements required to 2, the receiver (2) is a semiconductor magnetic diode receiver (2) is formed by a semiconductor magnetic diode and/or a Hall effect generator. The direction of the earth's magnetic field is determined by a thin layer microelectronic device al.

As a result, the receiver (2) determines its geographical position by means of these two positionings. Determine everything exactly.

According to a further feature of the invention, by at least one source of electromagnetic waves (3) In order to collect the generated radiation waves, the receiver (2) collects the waves of said source of electromagnetic waves (3). The antenna has a dielectric lens (8) adapted to the length, the lens (9) having a common A vibratory electric conductor or an interference filter is incident on a selective semiconductor sensor. Focusing the electromagnetic waves, the resonant electrical conductors are tracked to obtain the highest overvoltage coefficient. It is an inverted microband type. As a result of this configuration, the receiver receives pre-eminated 4. Can be used simply without an external antenna when installed in a vehicle with an external antenna. Used independently.

According to a further feature of the invention, the electromagnetic wave is in the form of a pulse code modulated wave train. and the receiver (2) has digital means for processing and displaying the received information. and a receiver (2) having an analog type means for accomplishing a telemetry function and a receiver (2). An analog-to-digital telemetry signal representing the entire distance between the transmitter (1) and the transmitter (1). and a digital converter.

As a result of this configuration, the transmitter (1) and/or the Calculate the distances separating the receiver (2) from all points that are , the optical display receiver (2) is a new measuring device.

A digital computer in the receiver (2) uses a pulse code modulated laser or Binary information originating from UHF transmitter and digitized by analog converter QeJ Starting from the nine telemetry information, the distance and the specific axis and ground of the receiver (2) are determined. What is the measure of the angle between the N/8 poles of the magnetic field? 1 programming or pre-programming A sequence of electrical signals given by a four-pole detector at one geographical point A 4-pole sensor A9 with two reference axes x, yl in the original plane of the receiver. shall be determined.

As a result of this configuration, objects other than the transmitter (1), the location or also displays stored direction signals that are adjusted externally during movement toward a point, and The receiver (2), which always gives a fixed target direction, is equipped with a novel compass.

at least two transmitters (1), (4) of different radio waves and at least one individual A portable receiver (2) that transmits and receives information via electromagnetic waves (3). A transmitting/receiving device according to another aspect of the present invention, and a communication, orienting device for Its application in the fields of communication, telemetry and advertising or publicity makes the system widely available. Using band bundles and also using electromagnetic wave bundles according to standardized frequency modulation methods and the receiver receives digital, analog, and wireless audio information. It is characterized by having means for processing, displaying, and disseminating.

As a result of this S formation, U[(F', digital laser (1) or frequency change Selecting information from two sources in various different formats, such as (4) simultaneously displayed on the screen and diffused by loudspeakers. The receiver is a new "media".

According to another aspect of the present invention, M, the receiver executes a plurality of received information processing programs. It has multiple sensing keys (25, 24) for selecting among the programs; These keys are for programming and/or functions and/or colorimetry, letters, numbers, symbols. The key is Rashi, and/or the key that combines all or some of these properties is sb. , these attributes may depend on the nature of the transmission source, the format of the transmission or the creative intent of the user. Dependent.

As a result of this configuration, these keys are characters according to a preset encoding according to fic rules and/or standards. words, numbers or numbers, musical notes or chords, symbols or formulas, things, properties, expresses a relationship, state, action, event, script, reasoning, information language or main point, and audible or visible information from among the possible spread of information transmitted by the transmitter. information can be selected in this way.

According to another aspect of the invention, the invention provides that the receiver (2) It is also characterized by not having any control keys or function keys.

As a result of this configuration, the receiver (2) can serve one purpose or multiple purposes of the same kind. The receiver (2) shall be pre-programmed for It is used as a "compass" with promotional images on the key label. It will be done.

According to yet another aspect of the invention, the receiver (2) is programmed or pre-programmed. Micro-opto-magnetism for selecting information during transfer by ramming - Chromo - formed as a separate portable card using electronic means.

As a result of this configuration, the new compass provides input, alphanumeric data, and directional signals. display on the dial and one or more programmed or pre-programmed By disseminating information by means of loudspeakers onto a target, one can towards one or more predetermined targets without a signal panel while walking or from inside a car. Can be pointed accurately.

According to yet another aspect of the invention, the invention provides that the receiver (2) selects movement amount information. Microband) - using magnetochromoelectronic means to It is characterized by being an individual, portable card that can be used for

As a result of this configuration, this new medium is designed to Useful public information and/or pre-program information for various information programming This allows you to receive it at any desired time while on the move.

According to yet another aspect of the invention, the invention provides that the receiver (2) receives preselected information. micro-opto-magnetochromo-electro to receive information while on the move It is characterized by being an individual, portable card that utilizes two-way means.

As a result of this structure, this new media provides information on public institutions and pre-programs. Automatically operate the system while moving various logged information You can receive it without any problems.

These and other objects, features and advantages of the present invention will be understood with reference to the drawings. It is the subject of the following exemplary embodiments to be described. In the figure, Figure 1 is 1 is a schematic diagram illustrating an embodiment of the invention, in which the receiver (2) receives a sequential digital Measure the distance from the transmission source (1) of the equation.

Figure 2 shows that the available points of the signal sent out by the transmitting source (1) are aligned. Instead, the bundle (3) is sent back onto the receiver (2) by the mirror (c). An embodiment of the invention is presented in a general case.

Figure 5 shows the direct irradiation of the focus of the parabolic reflector (7) of the bundle (3) by the horn (6). The liaison reaches the diopter (8) of the receiver (2) by 2 is a schematic diagram illustrating an embodiment of the invention with a NN or IMPATT transmitter (5); FIG.

Figure 4 shows two separate emissions: An embodiment of the present invention is shown in which the wave from the FM transmitter (3) and the wave from the FM transmitter (4) are simultaneously received. This is a schematic diagram.

FIG. 5 is a schematic diagram of a receiver (2) that blinds the following various elements: These key points The element is a diode consisting of a lens (9), a microband α [and a dielectric diode αυ]. Optor or dielectric antenna (8), differential amplifier A3, logarithmic amplifier (13, adder Amplifier 11 A/D converter (US, decoder α0, non-volatile memory (Iat-equipped) microprocessor - fin, magnetic direction sensor (11% LCD display (a), monitoring Pi = OL) IJ Gar comparator @, keyboard (23 + 24).

Figure 6 is a perspective view of a diopter (8) which is a dielectric antenna, which is a semicircular Polyethylene or T, P, X lenses with cylindrical or conical contours, gold/copper The resonant trap consists of an inverted microband (1) and a metal box (b).

Figure 7 shows the return connection (to), the output connection line -, and the detection diode α made of gallium arsenide. υ, longitudinal section of the diopter (8) with connecting screw @;

Figure 8 shows the pole piece of anisotropic ferrite and the Hall effect quadrupole magnet diode. FIG. 7 is a top view of a magnetic direction sensor α field with a field (7);

FIG. 9 is a longitudinal sectional view of the magnetic direction sensor α-yu.

62.4GH2, Example for magnetic dipolar absorption of oxygen Transmitter according to Fig. 3 1° GUNN or IMPATT oscillator Limited to programmed sequential information transmission. It has a simple structure, and the storage capacity is 16 octets, which is 6 octets based on geographical localization. large enough for sequential emission of files with 00 points) FSK (FSK meter emission) with 6 frequency units (・150MHz) version does not change the PCM information).

A parabolic reflector below the plastic radome (with a horn (6) at the focus of the force) Connect by direct illumination or waveguide.

As shown in Figure 2, a straight line with return by a slightly concave mirror (c) Propagation of light flux.

Transmitter (2) according to Fig. 5 (receiving head requires laser as information vector) (This is the only part that needs to be changed to suit your needs). Dielectric antenna ( 8) acts as a waveguide-Fresnel lens, and the electric current blocked by its surface Magnetic radiation f3) is concentrated on the gold/copper resonant microband line in the t-U frequency band.

Detected by Schottky diode αυ (diode 60/7bGHz), This diode is connected to the input of the logarithmic detector.

The output signal of the amplifier 13, which consists of a pulse train of variable amplitude, is of the Schmitt trigger type. It is connected to the comparator 22 and the shift register 16. shift register 16 is a logical numerical processing unit (MFU 0) by means known in the art. (consisting of MO8Si%PROM18, keyboard 25.24 and LCD display 20) It is connected to the. The shift register 16 is controlled by the clock of the CPU 17. controlled and synchronized to pulse FSK. Data retrieval is done asynchronously .

Extraction of telemeter information consists of solving 2Vtel = 2.54 Vre f. do. Here, vr is a logarithmic amplifier (i.e., an amplifier whose output voltage is proportional to tnvl) (representing the amplitude of the binary element of the output information of ).

At the output of the logarithmic amplifier, the Plotsky puffer sampling circuit (automatically adjusted threshold The pulse F8KVieti analog adder (controlled by the comparator) is amplifier).

In this case, L"t"tel LnVr - An An electrical signal (voltage or Electricity i) is converted into a decimal number by e.g. A/D converter Anne Technology I2L. , or respectively converted by an integral time counting algorithm under the control of the CPU. Ru.

Direction information is acquired using a 4-axis detector for the N/S magnetic axis of the earth's magnetic field and the receiver's own axis. As a function of the reference axes x and y of 19, the formula Q = A tan (v, /vx) is It consists in solving.

By the way, the CPU 17 controls the pulses shifted inside the shift register. Calculate the relative distance and relative direction of the desired point whose coordinates are extracted from the column. receiver This resonant line is specifically equipped with a trap-inverted microband type resonant line. The input itself is connected to a Schottky detector 11. Laser transmitter ArF When using 1z, the resonant antenna is connected to at least one photodiode. formed by a series of fluorescent dielectric diopters.

The next element in the structure of the receiver (Figure 5) determines the nature of the light rays produced by the light source. It doesn't matter.

These are a logarithmic amplifier (LA) 1j, a summing amplifier (Amp) 14, an analog-digital Digital converter (CAM) 1s, decoder (PCD) 16, (monitoring pile gold bias) Non-volatile memory (RAM) 1a (RAROM or magnetic bubble type) This memory stores sequential information of the decoder (PCD) 16, A/N converter ( CAM) telemeter information, (in case of programmable card) It receives the user's program and controls the liquid crystal display (LCD) 20'i.

These active circuits are placed on a printed circuit in the form of a ``puce'' or Embedded in the form of a black box, the underside of the printed circuit is covered with a wall that ensures the entire power supply. It is equipped with a collection of elementary photopiles. When using RAMCMO8'i, Monitoring vial 21 (lithium, mercury or silver oxide) is placed in the thickness of the circuit. Ru. The liquid crystal display 20 and the control boards 23 and 24 are implanted in the active circuit and are welded or connected by a diostomer conductor band.

For angular guidance by a thin M-type magnetic-electronic compass, the direction of the magnetic field is The sensor 19 is connected to an analog-to-digital converter (CAN) by a differential amplifier 12. 1'5.

The configuration of the diopter 8 depends on the signal source 3 utilized.

In the case of a laser light source, the function is a semi-cylindrical lens or a Fresnel lens 9. Functionally, this lens 9 directs the received light to one or more frames arranged on the printed circuit. The light is focused onto the photodiode 11.

When using a radiation source Ui in the UHF band, its role becomes even more complex. The reason The diopter 8 is formed by a dielectric lens 9 and a dielectric resonator that resonates with the radiation source U. In addition, the hanging lines 10 are formed by vacuum deposition. and terminated with a gallium arsenide Schottky diode 11 to form a printed circuit. The grooved metal piece 25 placed above has a connecting screw 28, and the whole has a trap Forming an inverted microband co-imager - According to Figures 10.11 and 12.13 Economical Construction The above-mentioned feasibility of the present invention and others can be realized under various aspects. It is possible and can have various applications. This is in correlation with the attached drawings. The subject of the following description of the economic configuration of the invention, given by way of example in is doing.

The individual portable receiver is box-shaped, approximately 101 cm long, 6 eM wide, and several inches thick. It is.

Figure 10 - Standard programmable receiver 2 in format 86x54m Lucado. Surface - Display (LCD) 20 with movable directional indicators, program sensing A keyboard with keys 23 and function keys 24 (see Figure 15 for the back).

This size of the card allows for ease of handling and readability with actual commercially available cards. gives compatibility. The main users are travelers, tourists, drivers, residents, Probably the consumer.

Figure 12 - Company card 1. Receiver 2 has a larger size of 125 x 65 (can be reversed for special applications and always carried in the pocket) Occupation Give him a nice big screen for his use. LCD display on the surface 20 is the reed, above which the alphabet and/or indicator 0υ appear. It will be done. This is done by reserving space in the lower part for displaying operations. I can do it. Reprogrammable sensing keys with color and/or operational instructions can be displayed.

-a) These keys are the programming keys 23 or function keys 24.

b) All keys have “finger right” for tracing letters and words with your finger. Sensing surface metal formation that enables full functionality of ``programming'' (function that can be programmed in writing) (See Figure 13 for the reverse side).

Figure 13 - Shows the entire back of the card. Is diopter 8 a sequential digital oscillator? The ability to collect waves is completely blinded.

The FM receiver 32 receives radio waves (for example, 104104-1O8) from the FM receiver. It has the function of collecting. Loudspeaker 33 is a frequency modulated emission fully spread let

The main characteristics of color are not only geographical, but also present at all levels of existence and knowledge. The point is that it is universal.

In fact, each color symbolizes all the elements. For example, red is fire, green is plant kingdom and water. As in, to represent. Colors also represent spatial sounds. For example, blue represents the vertical dimension. red represents the horizontal dimension, green represents the center of this space, and so on.

If, in general, black represents time and white represents non-time, then these two are contradictory. The colors represent the essential duality of existence. A person is placed at the center of a color force field. especially when placed between two opposite colors, between yellow and blue, between red and green, and between white and black. It is accepted that

According to a first practical and economical aspect of the invention, the correspondence between the receiver and the user is The operating method for establishing a story is new to include direction, information and selective classification. Create and utilize new languages on the user's external human senses and receivers. It is derived from a syllogism similar to the color organigerum A that appears in .

This means that the receiver is equipped with a flexible keyboard 23.24i with sensitive keys. In addition, these keys can be used for example in seven primary colors, i.e. violet, deep blue (aiiro). , cyan (bright blue), green, yellow, orange, red, black, gray, and white. That's true.

From these configurations, we define color-dependent statements and contact rules, and use the colorimetric method. Starting from one of the criteria of Get a new language. This results in constructing a vector expert system .

Follow this how-to to create a new language suitable for coding, then use it fully. do.

This is because the basic organogram takes into account the natural order of numbers and the organization of colors. For example, it is characterized by obtaining the following organogram AAI.

Violet...1 Blue...2 Cyan...3 Red...4 Gray...5 Green...6 Orange...7 Yellow...8 White...9 Black...0 From this configuration, by combining the whole, colorimetric display and/or numerical display can be realized. and encode information to be received and interpreted by a receiver or user. (telephone and videotex keys can have these same colors) Wear).

The method of operation also includes color symbolization or symbolization of the basic organogram for orientation. Use the system.

It has four basic tones: blue and yellow, red and green, and four main points. and that the center of these conflicting colors is gray, Table v., 7':2; It is characterized by being completed with other directional points opposite the colors (excluding black 1) . Application of this method is given to organodarum A2 as follows.

Northwest, Kitakami, Northeast (Violet 1) (Blue 2) (Cyan 3) West left center bunch stone (Red 4) (Gray 5) (Green 6) Southwest, West Lower, Southwest (Orange 7) (Yellow 8) (White 9) As a result of these configurations, the receiver has nine directions, four principal points, four intermediate points, and center (i.e., the center of the city, center of interest, center of attraction, center of activity, as the case may be) , the center of all worries, ``I'') has the function of a compass. child These four principal points can internally indicate top, bottom, left, and right.

The operating method and its application to color programming depend on the state and activity of one's elemental consciousness. It is characterized by taking into account the

This is due to two operations of the basic organodorum: convergence operation and divergence operation. This will be realized.

Organigerum Ak5 is as follows.

(il) (Back 2) (Cyan 3) Production achievement ---→ Objective (Orange 7) (Yellow 8) (White?) As a result of this configuration, the gray key "I hope" by organigerum A3 The first press initiates the voluntary intention to become. Multiple real routes open be done.

The surrounding color represents the motive or consideration for the action.

Departure, accommodation, leisure time (Orange 7) (Yellow 8) (White 9) As a result of this configuration, according to organigerum A4, the peripheral color to the central gray Concentration gives eight performing operations from intention or desire to "I".

According to another feature of the invention, the reprogramming of the organigeram key It is characterized by scales that are realized starting from the surface.

As a result, the redistribution of claims according to color can be applied to letters or words, numbers, as appropriate. or numbers, notes or chords, symbols or formulas, as well as objects, properties, relationships, states, actions, Events, scripts, deductions, programs, etc. can be given, or these can be given. .

Therefore, the adaptation of the system for the definition of the color of things in the enterprise (information, government, Automated growth/management with the same qualifications as industry, standardization, communication, distribution, etc.) participate in the creation of the lineage or supplement thereof in that case.

Colorimetric and/or numerical markings may appear on surfaces, guides, diaries, indexes, etc. will be displayed as opposed to traditional instructions in a summary panel or table. These signs are Also displayed on product advertising spots, messages, catalogs, memorandums and classification signs It will be created from

These colorimetric markers also take into account the existing color codes, and the standardized classification is based on the invention. Let's organize the totality of services requested by users of . according to national standards The managed code will give each municipality and each pharmacy the same color.

The standardization of basic colors, which operates according to more crowded standards, means that each person in every country Transportation, residence, lodging, rest, services, business transactions, and communication without language barriers. Hidden or secret locations are marked with a combination of colors according to the respective standards. will take advantage of the situation.

The basic photometric organigerum is a kind of palindrome with colors assigned to it. The statement provides instructions or guidance to tourists, drivers, consumers and residents. Defined for informational purposes.

Special embodiments and special purposes of the method of sending and receiving information according to the invention Although the invention has been described above, it is understood that the present invention is not limited to these forms and purposes. Needless to say.

That is, the sending and receiving method according to the present invention has a function that is simply directional, information providing, etc. It includes not only gender and classification, but also methods that are designed to make a diagnosis. . This is because differential absorption of electromagnetic waves in the U wavelength band causes irregular percolation of oxygen. and as a result the receiver and the applicator of the U wavelength band. The transmitter (2+5J-6J-7) transmits the human body irradiated by the applicator. Percolation of oxygen, which is a clinical sign of cancerous tumors or emphysema, in the primary form through may be used to diagnose irregularities in the ration.

As in the case of directionality, this is a priori, i.e. a function of the set criteria. The objectives to be reached are fundamentally not geographical, but also physical.

As a method derived from the present invention, when the vector wave of information is laser-type light, , electromagnetic waves in the UHF band due to frequency modulation, or the transmission of these radio waves. This includes methods derived from a combination of all or part of the following.

Furthermore, the scheme according to the invention allows the receiver to only have the function of receiving and processing information @i. The receiver may itself be a transmitter or may be connected to a transmitter or another user. It is also extended to enable questions and sometimes dialogue.

The four variants presented starting from the basic organodalum gain information during the transfer. is designed to establish an easy and quick interaction for most individuals. Even if there are variations to the same topic and/or professional application, It is also permissible for this organigerum to have some color or other appearance. Included in invention.

It goes without saying that the scope of the invention is limited by the content of the description of the general means. However, within the scope of the present invention there is no technical, economical or All aesthetic equivalents can be substituted.

FIG.1 1FMI FIG.9 Procedure correction band type) August 25, 1986 1. Indication of the case International application PCT/FR8510O filed on February 18, 1986 1602, title of invention micro opto audio magneto Chromo Electro Nitsuku Compass 3. Person who makes corrections Relationship to the incident: Patent applicant Address: Lili, Terrasse deux, 2, Courbevois la Défense, 92400 F, France S42 Name: Lanche Michel 4. Agent Address: 70 Gloria Hatsuho Ikebukuro, 1-28-1 Higashiikebukuro, Toshima-ku, Tokyo 170 No. 8 6. Subject of amendment (1) Translation of description and claims 7. Contents of amendment (1) Translation of the description and claims (no changes to the content) (2) As per attached sheet international search report ANNEX To τ! [rNτERNAτl0NJIL 5EARC! ! R EPORT ON

Claims (1)

[Claims] 1. at least one transmitter (1) and at least one portable individual receiver (2); ) and a device for transmitting and receiving information via electromagnetic waves (3) in the form of communication, orientation, identification, telemetry, remote classification, remote diagnosis, coding and programming In its application, The device uses a broadband radiant flux and the transmission frequency of the transmitter (1) is variable over a range of frequencies that at least partially covers the absorption band of the sphere's atmosphere. to become Differential distribution of radiation at at least two different frequencies in the spectrum of the source The phase deviation of the composite signal emitted by the absorbing and/or radiating source causes the receiver ( 2) to determine the properties of the radiation-guiding medium by exploring and analyzing it; The medium may be an atmosphere that separates the radiation applicator from the receiver, or the substrate transmits radiation. When forming a signal, the substrate itself may be used. The receiver analyzes the magnetic bipolar absorption of oxygen in the Earth's atmosphere and/or Detects irregularities in oxygen barcolation in the passing medium, The receiver (2) transmits the receiver (2) through the analysis of the magnetic polarity absorption of oxygen. Measure the distance L separating it from the transmitter (1), Receiver 2 determines and updates the precise geographical position as a function of this measurement and the earth's magnetic field. to give a bearing for a single transmitter device. A transmitting/receiving device characterized by: 2. of the n measurements required for the receiver to determine its position in n-dimensional space. one of which is formed by the direction of the earth's magnetic field, and n is equal to 2 for movement on the earth's surface. The receiver (2) includes a semiconductor magnetic diode and/or a Hall effect generator (30 ), a thin-layer microelectronic device formed by The transmitting/receiving device according to claim 1, characterized in that the transmitting/receiving device determines the direction. 3. for collecting radiation waves generated by at least one source of electromagnetic waves (3) , the receiver (2) is equipped with a dielectric lens ( 8) has an antenna having The lens (9) selectively Focusing the incident magnetic wave onto the semiconductor sensor, the resonant electrical conductor has the highest overvoltage In order to obtain the coefficients, we use a trap-inverted microband type, and the receiver (2) Depending on the configuration, if the vehicle does not have a blurring antenna and is mounted on a vehicle. also used alone without external antenna A transmitting/receiving device according to claim 1 or 2, characterized in that: 4. An electromagnetic wave (3) is transmitted in the form of a pulse code modulated wave train, the receiver (2) having digital means for processing and displaying the received information; The receiver (2) comprises an analog type means for accomplishing the telemetry function; An analogue digital signal that digitizes the telemetry signal representing the distance to the transmitter (1). has a digital converter, transmitter (1) and/or receiver from all points indexed by transmitter (1) The receiver (2) calculates the distances L separating the (2) and displays these distances. , a new measuring device A transmitting/receiving device according to any one of claims 1 to 3, characterized in that: 5. A digital computer in the receiver (2) generates a pulse code modulated laser. Also, the binary information originating from the UHF transmitter is converted into digital information by the analog converter (15). Starting from the aggregated telemetry information, the distance and the specific The measurement of the angle between the axis and the north/south pole of the earth's magnetic field can be programmed or pre-programmed. Electrical signals given by a four-pole detector at a single geographical point A four-pole sensor (1 9) However, it is established that during movement towards an object, location or point to be sought and indexed other than the transmitter (1); It also displays a memorized direction signal that is readjusted and always gives the direction of a specific target. The receiver (2) is a novel compass that gives "poles" to every geographical point. be A transmitting/receiving device according to any one of claims 1 to 4, characterized in that: 6. at least one transmitter (1) of electromagnetic waves (3) of the laser or UHF type; at least one transmitter (4) of wave number modulated electromagnetic waves and at least one individual An information transmitting/receiving device having a portable receiver (2), communication, and direction determination. , for identification, telemetry, remote classification, remote diagnosis, coding and programming. , which is an application of the transmitting/receiving device according to any one of claims 1 to 5. The position is the triplet 3σρ absorption band of oxygen at 60±6GHz or 6425,0.7 624 and 0.688μ oxygen infrared and red absorption bands and 0.145-0. Transmission and reception using a broadband bundle from the 204 μm ultraviolet absorption band of oxygen and nitrogen The device utilizes electromagnetic radiation flux according to a standardized scheme of frequency modulation, Known wireless reception means for a receiver to receive and simultaneously process transmitted information and digital and analog means; Select information coming from two different sources and display it on the screen. A receiver (2) that displays it and diffuses it by a loudspeaker is a new It is "Media" A transmitting/receiving device characterized by: 7. Multiple programs for selecting the received information processing program from among multiple programs. the receiver (2) has a sensing key (23, 24); These keys provide programming and/or functions and/or colorimetry, letters, numbers, A symbolic key and/or a key that combines all or some of these properties. These attributes may depend on the nature of the source, the form of transmission, or the creative intent of the user. exist, These keys depend on memory technology and/or vector graphics rules and/or letters or words, numbers or numbers according to a preset encoding according to the standard , musical note or chord, symbol or mathematical formula, thing, property, relationship, state, action, event , script, reasoning, information language or representing the main points and also transmitted by a transmitter The audible or visible information is thus selected from among a plurality of possible information dispersions. Ru A transmitting/receiving device according to any one of claims 1 to 6, characterized in that: 8. The receiver (2) apparently has no mechanical keys or program keys; a receiver (2) pre-programmed for one purpose or several similar purposes; , such as with a promotional image on the label of the key. used without any operation A transmitting/receiving device according to any one of claims 1 to 6, characterized in that: 9. To select information during transfer by programming or pre-programming A separate, portable unit that utilizes micro-opto-magneto-chromoelectronic means for forming a receiver (2) as a card; This new "compass" displays alphanumeric data and direction signals on the dial. marking and programming or programming or programming on one or more preprogrammed targets. By disseminating information through a loudspeaker, people can accurately pointed toward one or more predetermined targets from within a vehicle without a signal panel; , ``new media'' provide useful public information such as routine safety goals and /or Pre-programmed information is being moved by programming various information. receive at the desired time A transmitting/receiving device according to any one of claims 1 to 8, characterized in that: 10. Including programming, encoding, orientation, information or selection classification In order to create and use new languages suitable for Combine the organograms shown on the program keys and function keys of the signal. The stopping syllogism is utilized to set up a dialogue between the receiver and the user, The organogram is colored or schematic, and one or more fixed indicators are colorimetric and/or schematic. Colorimetric and/or graphical and vectorial When defining statements according to graphical rules, Declarative language suitable for programming, coding, orientation, information disclosure and classification Claim 7, characterized in that the shortened language is obtained by tracing with a finger. Transmitting/receiving device described in Section 1. 11. Keeping in mind the natural order of colors and numbers, the receiver (2) also The 10 color tones that have come to be perceived and interpreted even through colorimetry and/or digital Any of claims 7-12, characterized in that it describes a black and white sign. The transmitting/receiving device according to item 1 and its application to encoding. 12. On the basic organigram by the four basic tones: blue, green, red and yellow. The four basic dots are displayed opposite other colors such as violet, cyan, orange, and white. Complete the table by other direction points, Starting from each photometric point of the organigram, four main points, four intermediate points and center, i.e., the center of a city, center of interest, center of attraction, center of activity, as the case may be; The center of worry, ``I'', acquires a compass function in 9 directions, Organigram takes into account a person's elemental state of consciousness and activities, By manipulating the organogram, divergent or convergent touch lines can be created. The fact that you first touch the gray (I) key is by sliding your finger towards the surrounding color. These peripheral colors initiate the realization of any intention, and multiple paths are open to them. Representing motifs of action and deliberation, The fact that you first touch one of the peripheral color keys and slide your finger towards the central "ash" gives nine execution operations from intention to "I", Coordinated movement relative to multiple fixed markers can be achieved by color or abbreviation - vectorial Realizing a new programming language, Programming the keys of the receiver (2) for other applications is via a known control panel of a data processing device connected to the receiver together with peripheral devices. and/or realized via emmission, Rearranging the keys on the keyboard is based on memory technology and/or vector contact rules and/or According to the established encoding method, it provides operations related to various activities, thus Display or audible information is selected from a possible sequential information stream, and the adaptation of the device is Classify and rediscover products and/or establish value analysis concepts and diagnostics. to create catalogs, create information languages, and provide tools for operating specialized systems. give the means The transmitting/receiving device according to claim 7, 10, or 11, characterized in that: , and its application to programming and orientation in special declarative languages.