CA1260614A - Micro-opto-audio-magneto-chromoelectronic compass - Google Patents

Abstract

New means of communication that is used while traveling. Individual and portable receivers in the format of a credit card display and broadcast automatically or by selection information from waves from microwave or laser transmitters and FM transmitters. The transmitters cover sensitive areas and send sequentially a stream of information transmitted by a digital signal with a bit rate equal to approximately 900,000 bits / second. At the same time, transmitters are used to cover 95% of a territory in audio. New info-directional media which is of public utility, new personal guide which changes the signage discourse, new regional memory which gives tailor-made messages, new advertising medium which offers the 'presale' service, new instrument which allows identification selective, this 'new compass', which takes stock with a single transmitter and gives you 'the pole' of the goal you are looking for, meets all the requirements of urban, rural and interior location and can be used with all means of transport.

Description

a ~

The present invention relates to an apparatus for transmission and reception of information by wave electromagnetic.
The present invention is in the field of techniques grouped under the term telematics, say techniques ayan-t for obje-t the -transmission to distance from the information and its processing.
His preferred achievements are described for orientation, direction, identification applications fication, guidance and assistance. Generally the invention widens the horizon of communication and corresponds to a real need:
NEW "GLASS MEDIA" which is of public utility, NEW GUIDE that changes the signage discourse, NEW MEMORY which gives the messages to the card, NEW SUPPORT that offers advertising as a service, NEW TOOL which allows selective identification, NEW COMPASS which automatically "takes stock", the present invention responds to both requirements of urban, rural and interior location and can be used with all means of transport in all atmospheric environments.
"MEDIA INFO-DIRECTIONNEL", the invention improves the driving aids and road safety, it optimizes the use of road and motorway networks as it can change the relationships between public services, administration and users "PERSONAL GUIDE", it indicates the directional and the distance to find a locality, a street, a business, a service, a hotel, aid, a meeting, a event, show, work or leisure As it guides you towards a company at the bottom of a ~ ' ~ 7 ~
industrial area, an automated bank in Ection, a open petrol station, a stand in the labyrinth of a exhibition, an office in the three-dimensional maze of a new city "REGIONAL MEMORY", it gives you during your trips and when it interests you sports results, local news, weather, advice ... As it communicates congestion on your route and how to divert them "ADVERTISING SUPPORT", it gives you the best price on a desired product and takes you to the point nearest sales outlet, as she touts the area crossing and you ~ uide towards its specialties "PROFESSIONAL TOOL", it classifies and gives the possibility lite to find the goods in the best conditions, as it is suitable for value analysis, telemetry, in teledia ~ nostic "NEW COMPASS" of this emerging 21st century it connects without cable, the individual to his environment, the environment to the individual and the individuals within themselves.
If there are various orientation systems to date, guidance, signaling and recognition; ~ ticks, ticks or None of them are comparable to the present invention.
Indeed, the lnvention exploi ~ e prop ~ atlon of radiation ~ electromagnetic ~ tlqu ~ ~ ntr ~ of ~ ~ emitters ~ t of ~ r ~ e ~ pt ~ ur ~ av ~ c deQ proc ~ dice of transT; iss ~ on et de measur ~ dlff ~ rent ~ et compl ~ mentalre ~:
1) A unidirectional transmission of digital orations with a periodic displacement of carrier frequency which also authorizes ~
telemetry function by phase dlsperslon.

2) A new compass ~ mlnce layer which determines 1 ~ s ~ ns of the field magnetic earth and gives the orientation function.

3 ~ Standardized frequency modulation transmission according to the means known from the prior art.
~ U band microwave transmitters or lasers are installed on ~ sites conveniently ~ suitable for covering ~ zone ~ born ~ ralgiques well determined. These transmitters send ~ essentially all to ~ the records from a database. This flow of information is transmitted by a digital si ~ nal of a deblt ~ gal to ~ nviron 900,000 blt ~ / ~ econde.
At the same time, a seal of ~ matt ~ urs ~ frequency modulation is installed for couYrlr 95% of a tcrritolr ~. These ~ emitters traditionally in FM. (For the natlonul territory, the current network public and / or private could be used ~ n controlling the periodicity ~
priority programs Y) Individual and portable electronic receivers, format of a credit card ~ used by users. They display SUI 'their screens and broadcast through their loudspeakers ~:
- automatically, public utility information such as those dealing with traffic and road safety.
~ 0 This information comes either from the ~ sequential transmitter close, that is to say the local FM transmitter valld ~ s by the receiver when they issue in ~ ormations of driving aids ~.
- by programming them, directional information, administrative, professional ~, commercial, tourist3, cultural, sports, leisure ... This information also comes from either of the nearby sequential transmitter, i.e. of the FM transmitter locsl validated by the receiver when they are the requested information.
- The receiver only needs one source ~ mettrlce to determine the local cartography and "falre le polnt". He does not have DO outdoor antenna and weighs less than 100 gram ~.
3 ~
~ the receiver selects information that can be to be vital for all users, for a category professlonn ~ lle, as for a single lndlvidu, without embarrassment for others.
This information 60nt with the choice, very extended 5i 1 'on looking for specific applications, or limited by automatic selection tlque of information of public utility or by pr ~ -pro ~ rammation of priority data ~ for those who do not want to worry about manipulation - The receiver is autonomous, as it is connectable to the radio, ~ the on-board computer, with the digital counter ~ that of a vehicle as well as most computer hardware.
- The present invention opens out to a multitude.
of applications related to the interior circulation of a building, shipping, rail traffic ...
The invention fits easily from one perspective at a time public utility, commercial and professional as follows:
- The first objective of this new compass is to improve ~ safety ~ routlare, ~ ldes ~ driving and reporting between the 8ervlc ~ publlc ~ minl8tration ¢ t the users-citizenB.
- Le deuxl ~ m ~ obJectl ~ d ~ ce new medla v ~ se ~ cr ~ er un new promotional, advertising and commercial support that brings especially "pre-sales service".
- The third objective of this new means of communication is to make it a new professional tool suitable in particular for telemetry, ~ tel ~ classification and remote diagnosis.
This triple component allows:
- With the State, the establishment of a national network with a "8t ~ ndard d ~ ~ a" qul e ~ ta the basis of a normalization of the system.
- With advertising, amortization of inltial expenses and financing the maintenance of national transmitters.
3 ~ - With the fully achievable interdependence of the different sect ~ ur ~ of applcatlon ~, uno rabrlcation ~ n grande s ~ rie.
- In addition, the chromatic language to establish dialogue between user and inventlon is a concept that can be used in all languages.
The main operating mode of the invention is based on the use of a unidirectlonnelle modulated lialson by coding pulse (PCM) and has a frequency which allows the telemetry function as well as a system that determines the direction of the earth's magnetic field.
Traditionally, the processes implementing the ao propagation of ~ leotromagnetic radiation are of two kinds:
1) communlcatlon systems, in which a water electromagnetic radiation, modulated according to a standardized process (AM, FM, SSB, PM, PCM, FSK, PSK etc ...) serves as a vector for a sequence of information, transmitted from source 6mettrlcc to the receiver (s).
S According to a variant, two or more proc ~ d ~ Q of modulation different can be applied to the same beam of radiation afln of simultaneously transmit several ~ independent ~ sequences of informatlons.
2) diagnostic systems, in which a beam of radiation electromagnetic passing through or emitted by a substrate ~ oumls au dlagnostic is analyzed by the measurement system, which allows one or more several physical characteristics of the substrate.
The function of neo-agnostic site compares the spectrum energy (amplitude A and phase Phl as a function of the wavelength Lambda) received by the receiver to the reference spectrum emitted by the source, which is known.
At an instant t, the complex amplitude of the wave received by the receiver is:
I ~ - ~ 1 ~ t 1 ~ (~) A (t) = ~ A ~) eed ~
~ w: s O
Due to the different propagation velocities of the components pulsation diff ~ rente ~, the ralsceaux ~ 16r ~ o band, it is st ~ dlre whose spectrum is ~ end on a lar ~ e domain of pulsation ome ~ a are not usually used in t ~ l6co ~ munic ~ tion, but only in diagnostic ~ tlc close.
The present invention exploits the phase disperslon of a beam of electromagnetic radiation passing through a material medium, which can be the terrestrial atmosphere separating the ~ transmitter from the receiver or a subs ~ rat separating a radiation applicator from the receiver or the substrate material itself even if said substrate constitutes an emitter.
According to the prior art, the absorption, that is to say the attenuation of amplitude, of an electromagnetic wave beam through the atmosphere was not exploited, to our knowledge, only in two cases:
1) measurement of the water vapor concentration of the upper atmosphere.
2) Radiotelephony Confidentiality ~ Explosive Short Range absorption by the rho 3 sigma band of oxygen from the U band (60 Gh ~) in order to limit the possibilities of interception of out-of-beam messages.
According to the present invention, the differential abRorption of the radiation has at least two different frequencies from the source emitter and / or phase dispersion of the composite 6ignal ~ set by the ~ 0 transmitting source is exploited and analyzed by each of the fa ~ we measure at least one characteristic of the environment crossed such that its length, which in this case is the distance separating each of the receivers from the source transmitter.
Because the radiation emitted by the source must be partially absorbed and / or dispersed by the atmosphere crossing, the Frequency of the transmitting source must be chosen from one of the following bands:
1) triple rho sigma absorption band of oxygen to 60 +6 Ghz (U band) 2) infrared and red oxygen absorption bands at 6.426, 0.7624 and 0.688 microns.
3) absorption bands in the ultraviolet of the ox ~ gene and nitrogen from 0.1 ~ 5 to 0.204 microns.
Among the sources of radiation usable as transmitters include microwave band oscillators U with Gunn diode, Impatt diode, traveling wave tube and excimer lasers such as the Argon fluoride laser (ArF) emitting at 0.193 microns.
The emitting source is modulated according to one of the processes known to be specific to the transmission of a flow of sequential information in digital form represents among other things the cartography of the place in which the user of the receiver versus transmitter.
Angular information is available at the level of the receiver to allow it to be situated in relation to an absolute geographic benchmark. This can be achieved in two distinct and possibly complementary ways:

1) coding at the level of the radiation beam itself the angle of rotation which requires each return by a mirror. This requires the use of a beam linearly or circularly polarized as well as a mirror whose surface structure is anisotropic screw with respect to the electromagnetic wave that it reflects.
2) determination at the receiver level of its own angular orientation with respect to the magnetic field terrestrial, using a new magneto- compass thin film electronics.
The present invention relates to an apparatus for transmission and reception of information by means of waves electromagnetic, comprising at least one wave emitter and at least one portable individual receiver, said apparatus using broadband beams, the frequency of emission of said transmitter varying over a range frequency partially or totally covering a absorption band of the Earth's atmosphere, the influence a predetermined phenomenon on the signal of said transmitter being exploited and analyzed by the receiver in a way determine a characteristic of the medium crossed; after have analyzed the influence of said predetermined phenomenon, said receiver measures the distance L separating it from the transmitter, and as a function of said distance L and of the field magnetic earth, said receiver determines its exact geographic position and is located in relation to said audit at least one transmitter.
Preferably, according to a first practical aspect of the present invention, a system of transmission and receiving information using waves electromagnetic, of the type comprising at least one transmitter microwave or laser waves and at least one receiver ~:.

individual portable, and its application mainly to areas of communication, orientation, telemetry, coding, programming and advertising, is generally characterized in that the system mainly uses a broadband beam, and in that the transmission frequency of said transmitter varies over a certain frequency range covering at least partially an absorption band from the atmosphere terrestrial, and in that the differential absorption of radiation at least two different frequencies of the spectrum of the emitting source and / or phase dispersion of the composite signal emitted by the emitting source is exploited and analyzed by the receiver in order to determine a quantitative of a characteristic of the medium crossed, which can be the earth atmosphere or a substrate separating an applicator from the receiver radiation or the substrate material itself even if said sub-t constitutes a transmitter, and in that the receiver takes account of the field magnetic earth.
It follows from these provisions:
that the receiver analyzes with the system the absorption magnetic dipole of oxygen from Earth's atmosphere that through this analysis the receiver measures the distance L separating it from the transmitter, st that the receiver takes stock with a single transmitter in function of this measurement and of the magnetic -terrestrial field.
Preferably, according to another aspect of the present invention, it is characterized in that the sense of the Earth's magnetic field is one of the n measurement necessary for the receiver to determine its position in n-dimensional space, n being two for a displacement on the surface of the earth, and that the receiver determines the direction of the earth's magnetic field at using a thin-film microelectronic device made up of "llall" effect generators.
Thus, it follows from these provisions that the receiver determines its exact geographic position with these two measures.
Preferably, according to another aspect of the present invention, it is charac-terized in that the receiver contains for the collection of waves emitted by at least one of the electromagnetic sources one year at dielectric lens adapted to the wavelength of said electromagnetic source and that it len-tille focuses the incident electromagnetic wave on a detector semiconductor and selective by the interposition, so of a Interference barrier, either from an electrical line resonating which is of the trapped reverse microband type in order to obtain the highest overvoltage coefficient. he results from these provisions that the receiver does not have prominent antenna and can be used as is without external antenna even on board a vehicle.
Preferably, according to another aspect of the present invention, it is characterized in that said electromagnetic waves are emitted under the form of wave trains modulated by pulse coding and that said receiver includes digital type means for processing and display the information received, and that the receiver also includes analog type means performing telemetric function and converter analog digital digitizing the range signal which allow it to locate itself in relation to the transmitter.
It follows from these provisions that the said receiver which calculates the distance L separating it from the transmitter and which also displays this distance is a new measuring instrument.
Preferably, according to another aspect of the present invention, it is characterized in that the . .
,, ~ 2 ~
g receiver digital computer determines, from binary information modulated by pulse coding and telemetry information digitized by the converter analog and with the four-pole sensor which has 2 reference X and Y axes in the receiver's own plane and the electrical signal given by the quadrupole detector, the precise distance and a measure of the angle between the axis north / south of the Earth's magnetic field and its own axes of the receiver.
Thus, it follows from these provisions that the receiver, which also displays a directional signal memorized which reappears just while moving towards a site, habitat, object sought and listed other that the transmitter and by 1 to same permanently gives the direction of the desired bu-t, is a new compass.
Preferably, according to another aspect of the present invention, a transmission and transmission system reception of information by means of waves electromagnetic, of the type comprising at least two transmitters of different waves and at least one receiver portable individual, and its application to the fields of communication, orientation, telemetry and advertising, is characterized in that the system uses in main a broadband beam and what it uses also a beam of electromagnetic radiation according to the standardized frequency modulation process, and that said receiver comprises digital type means, analog type and radio type for processing, display and disseminate the information received.
Thus, it follows from these provisions that the receiver which simultaneously selects information from two different types of emitting sources, microwave or digitized laser and modulation of frequency, displays them on its screen and broadcasts them by sound ~. ~, speaker is a new "media".
Preferably according to another aspect of this invention, it is characterized in that the receiver is provided with a plurality of micro-sensitive keys for selecting from a plurality of programs a program for processing the information received, and in this that these keys are either colorimetric or alphabetic-either digital, symbolic, or bring together partially or all of these qualities, and that these attributions depend either on the nature of the sources transmitters, either of the type of emission, or of the will user creator.
It follows from these provisions that the keys can represent, according to mnemonic techniques and / or vector tactile rules and / or pre-coding established according to standards, letters or words, numbers or numbers, musical notes or chords, symbols or formulas, as well as objects, properties, relationships, states, actions, events, scenarios, inferences, computer languages, also cardinal points and that we can choose a displayed information or disseminated among a plurality of possible information.
Preferably, according to another aspect of ~ 5 The invention, it is characterized in that the receiver cannot have any function or apparent programming.
Thus, it follows from this provision that the receiver is preprogrammed for one or more goals identical and that the receiver uses as is as a "compass", with an image instead of the key labels advertising.
Preferably, according to another aspect of the invention, it is characterized in that the : ~ ' - lOa -receiver is a portable and individual card, using micro-opto-magneto-chrorno-electronic means for "take stock" by programming or preprogramming.
Thus, it follows from these di.spositions that with this "new compass" you can navigate in a way precise, on foot or in a vehicle, without signaling, towards one or more determined goals, by posting on its dial of directional signals and data alphanumeric and by broadcast through its loudspeaker information on this or these programmed or preprogram goals my.
Preferably, according to another aspect of the present invention, it is characterized in that the receiver is a portable and individual card, using micro-opto-magneto-chromo-electronic means for select information while on the move.
Thus, it follows from these provisions that with this "new media" one can receive during his travels-or automatically useful information road safety guidelines, either by programming of various information at the time when it is longed for.
Preferably, according to another aspect of the present invention, it is characterized in that the receiver is a portable and individual card, using micro-opto-magneto-chromo-electronic means for receive pre-trip information while on the move selected.
Thus, it follows from these provisions that with this "new media" one can receive during his travels-automatically and without manipulation of the system public utility information as well as information various pre-programmed.
These and other goals and peculiarities ~: ' - IOb -and the advantages of the present invention are the subject in the following description of practical achievements given as examples, in correlation with the drawings below ~ anointed:
5 Figure 1 is a diagram showing a realization sation of the invention, in which a receiver measures the distance L separating it from a sequential emitting source and digital.
Figure 2 is a diagram showing a 10 realization of the invention in the more general case where the signal processing sites from this source transmitter are not aligned. The beam being returned by mirrors on the receiver.
Figure 3 is a diagram of an embodiment 15 practice of the invention with a Gunn or Impa-tt transmitter where the direct radiation connection by horn to the focus of a parabolic reflector of the beam reaches the diopter of the receiver.
Figure 4 is a diagram showing a 20 embodiment of the present invention in the case of a receiver receiving two separate transmissions at the same time.
A wave coming from a microwave transmitter or laser and a wave from an FM transmitter.
Figure 5 is a diagram of the receiver with its 25different components: the diopter or the dielectric antenna composed of the lens, the microstrip and the diode detector. A differential amplifier, a logarythmic amplifier, a summing amplifier, a analog / digital converter, decoder, micro-30processor equipped with a non-volatile memory, the magnetic sense, LCD display, backup battery, the trigger comparator, the keyboard.
Figure 6 is a perspective diagram of the diopter which is a dielectric antenna composed of a -: I.Oc -polyethylene lens or ~ .PX in semi-cylindrical profile or elliptical, of a resonant trapped inverted microstrip gold / copper and a metal box.
Figure 7 is a longitudinal section dudi-t diopter with return connection, output connection, the gallium arsenide detector diode, the screw Okay.
Figure 8 is a diagram seen from above of the sensor of magnetic sense with ferrite pole pieces anisotropic and Hall effect quadrupole magneto-diodes.
Figure 9 is a longitudinal section dudi-t magnetic sense sensor.
PRACTICAL IMPLEMENTATION with magnetic dipole absorption oxygen at 62.4 Ghz:
TRANSMITTER (1) according to figure 3. Gunn oscillator or Impatt (5), 30 mW rms, U band. PCM modulation (max data 10 Mbits / s currently, expandable), managed modulation by a micro computer at 10 MHz clock frequency (simple structure because it is limited to a program sequential preprogrammed information; a capacity 16 Kbytes memory is sufficient for transmission sequential of a file of 600 sites with their geographic location) and FSK by displacement of frequency (+ 150 Mhz). (the FSK range broadcast does not alter not PCM information).
Link by waveguide or direct radiation by horn (6) at the focus of a parabolic reflector (7) under plastic radome.
Propagation of the beam in a straight line with references by slightly concave mirrors (25) as on the figure 2.
* trademark ~. ~
- 10d -RECEIVER (2) according to figure 5. (the reception head is the only part to change for possible use of a laser as a vector of information). The antenna dielectric ~ 8) works as a waveguide-lens of Fresnel and concentrates electromagnetic radiation (3) intercepted on its surface on a gold / copper microstrip line (10) resonant in U-band, with detection by a diode Schottky (11) (60/75 Gh ~ diode), connected to the input of a logarythmic amplifier (13).
I0 The output of the amplifier (13), consisting of pulse trains of variable amplitude, is connected with a goes to a Schmid-t (22) trigger comparator and to a shift register (16), connected by known means of the prior art to a digital logic processing unit l5 (MPU CMOS If PROM memory (18); Keyboard (23- ~ 24) - ~ display LCD (20)). The shift register is controlled by the CPU clock (17) and synchronized with the FSK pulses, data acquisition being asynchronous.
.
ne I ~ xtr ~ ction de l'lnformat'on t ~ lémétrlque consist ~ ré ~ oudre in ~ quatlon Yt 1 ~ 2 ~ 34 V eL, where V is the amplltude of a ~ blnAlr element ~
~ e I of information in ~ nettle of logarythmic amplifier (ie dlre whose ¦ output voltage is proportional ~ lnV).
the ! S In 80rtl ~ ampll log, a blocking sampler, controlled ~ e ¦ by a comparator ~ ~ u ~ tement de seull autom ~ tlque, ~ lgullle le3 I pulse FSK Vt lts to an analog controller (Qmpll op).
?) ~ such r ! 9, Le 6ignal ~ lectrlque (voltage or current) proportlonnel ~ L
e3t con ~ erti digital number, for example by an A / D converter I2L technology, or by an integration time counting algorithm under CPU control.
9- The extraction of direct information consists solve the equation ~ - A tan (V / V) according to the 2 exe6 X and Y of yx ref ~ rence of the quadrlpolar detector ~ 19) relative to the north / south axis of , Earth's magnetic field and ~ ux zxe ~ properq of the receiver ~ receiver.
e Then the CPU calculates the relative distance and the direction relative e of the ~ ite rech ~ rch ~ whose coordinates have been extraltes of the impulse trap ~ d ~ threading d ~ n ~ 1 ~ register to d ~ timing. The receiver includes, inter alia B, a resounding line of 8re mlcrob ~ nde inverted pibg ~ e (10), itself coupled to a Schottky detector (11). Dan ~ the use case of an Arss lsser transmitter, the resonant antenna would be made up of a diopter ) fluorescent dielectric coupled to moln ~ a photodiode.
The ~ ment of the receptor structure, Figure 5, are independent of the nature of the radiation emitted by the source:
a LA logarithmic amplifier (13), an amplifier Amp summator (14) and an analog / digital CAN converter (15), a PCD decoder ~ 16), a microprocessor CPU (17) ~ equipped with ~ no memory volatile RAM (18) Is of the CMOS type with backup battery, or of the type EAROM, or of the kind ~ bubble ~ magnetic), receiving the information s ~ quenti ~ lle d ~ codour PCD (16), telemetric information A / D converter CAN, the user program of the keyboard (in the case programmable cards) and managing the display ~ liquid crystal ~ LCD (20) The clrcuits ~ stifs are implanted in the form of "chips" or in the form of microbolti ~ rs on a printed circuit, whose lower face ~ lower includes a set of sillcium solar cells, ensuring the supply of all. When using RAMCMOS, a stack of backup (21) (lithium, mercury or silver oxide) is available in the thickness of the circuit. The display ~ LCD (20) ~ t the keyboard (23 + 24) are ao implanted cot ~ active circuits and connected by solder or strip ç ~
I ~
elastom ~ re ~ inverter. For anulary guldage by bou3sole magnetoelectronics in mincc layer, 1 ~ c ~ sensor do sen ~ of the magn field ~ ti ~ eu (l9) is connected to the analog / digital CAN converter (lS) ~.
a differential amplifier (12).
The concept of dloptre (~ depends on ourc ~ 6m ~ ttrlG ~ (3) utllis ~ o:
In the case of a ~ laser ource, its ~ anointing is that of a semi-cylindrical or Fresnel lens (~) which concentrates the received light on one or more photodlodes (11) attached to the product.
Dan ~ the case of the use of a hyper source ~ q ~ ence ba ~ e V its role is more complex since it constitutes ~ la fol8 une lentllle dielectric (9) and a dielectric resonator resonating in U-band with the suspended line (10) formed by m ~ tallization ~ OU8 vldo, ~ t terminated by ~ ne Schottky dlode (11) gallium arcenlure, ~ 18 ft ~ ce m ~ talllque ralnu ~ ée (25) reported on the printed circult ~, comprising a vi ~ agreement (28), l ~
all constituting a resonator ~ microband lnverRée pi ~ g ~ e.
ERGONOMIC WORKS ~ VES according to figures ~ 10, 11, 12 and 13.
The previously described and other feasibilities of the ' presents lnventlon can ~ tr ~ r ~ alls ~ e ~ BOU8 plu ~ ieur ~ ~ pRCt ~ and 8vo ~ rj a multitude of applications ~. This is the object of ~ n ~ l ~ d ~ sorlptlon qul ~ a follow ergonomic rballsation of the inventlon given ~ ~ title example, in correlation with the drawings anointed:
These individual and representative receivers are about ten centimeters long, half a dozen centimeters wide and only a few milllm thick.
Figure 10 - The "standard" programmable card, receiver (2) in an 86 x format ~ 4 ~. On the front: an LCD display (20) with a mobile directional sign ~
(31 ~, a keyboard provided with sensitive programming keys (23) and ~
function (24). (On the back see figure 13) Its size gives it good handling and one!
storage compatibility with the carte8 currently on the market. The main users would be tourists, travelers, motorists, residents, consumers ............................ I
Figure 11 - The pre-programmed "standard" card, receiver (2) in B6 format x 54 mm. On the front an LCD display (20) with a directional sign mobi.e (31). It has no function or pro ~ rammatio ~ key related. It is pre-programmed for one or more identical goals.
Elle BI uses without manipulation with ~ instead of llbell ~ keyboard 40 (23 + 24) an advertising image. (On the back volr figure 13) I

the I
Figur ~ lZ - The "company" card, receiver (2) its format 125 x 6S mm more important (rever ~ ible for epplicQtlons particullèr ~ s and always ~ e ~ e I
I pocket), gives it a larger screen for professional use.
¦ On the front an LCD display (20) on which letters, pictures ¦ 5 digits and ~ or direction symbols (31). (At the bottom, a space is reserved for displaying the manipulations) reprogrammable ~ on which colors and / or operational indications.
6) These keys are for programming (23) or function (24).
b) The set of keys forms a sensitive surface which allows the function "finger writing" in order to trace characters and words with a dolgt.
(function for clear programming) (On the back see figure 1 ~) Figure 13 - The back of all cards. The dloptre (8) has for function of collecting the wave coming from the digital sequential transmitter.
The function of the FM receiver (32) is to collect the wave coming from the FM transmitter. (for example between 104-10 ~ MHz) The speaker (33) of ~ ffuse the ~ missi ~ na in frequency modulation.
at r - The main character of color is its universality, not only geographic, but also to all levels of being and !knowledge. Indeed, if certain colors symbolize the elements, like red ~ = fire, green = plant kingdom and water. They also symbolize space, like blue = vertical dimension, red ~ the horizontal dimenslon, the grl ~ ~ the center of this space.
! If in general black symbolizes time and white the timeless, these two opposite colors also represent dualism intrinsic of being. So let's admit that the man is gray in the center of the ch ~ mp do ~ orce chromatiquo, between all the opposite colors, between the yellow and blue, ~ ouge and green, white and black ...
According to a premler a ~ practical and ergonomic peck of this invention, the process of manipulation to establish the dlalogue between the receiver and its user comes from a syllogism that gathers a chromatic flowchart A fig ~ lrant on the receiver and the sensitivity exteroceptive of the user, in order to display, pUiB to use a new language prc ~ pro ~ identify orientation, information and classification ~ 0 selective.
13 ~ w ~
This is cnractérls ~ d ~ a manl ~ r ~ g ~ n ~ rAle ~ n what the receiver has a key ~ vler ~ ouple provided with ~ touch ~ in ~ itlves (23 + 24) and that on these keys appear for example l ~ s ~ ept primary colors, the PURPLE, the dark ~ LEU (indi ~ o), the CYAN (light blue), lc GREEN, the YELLOW2, 5 ORANG ~ and RED as well as BLACK, GRAY ~ tl ~ B ~ NC ~
It follows from CC8 available that ln flnl of 5 assertlons d ~ pendante ~ of colors ~ lnsl that rules ~ touch ~, on, 3 to leave and to; one or two fix2s colorlmétr ~ ques, we get a new abbreviated language ~ declarati ~ to orient, inform and classify.
What comes ~ build ~ n mini vector expert system.
According to this manipulation process, we work out, we use 3 a new language specific to coding.
This is characterized by the fact that the basic organization chart account of a gold ~ anisa ion of colors and the natural order of the numbers in giving for example the organization chart ~ in ~ Al 8ulvant:
VlOLET - 1 BLrU - Z CYAN - 3 15 ROU OE - 4 GRAY - 5 V ~ R ~ ~ B
ORAN OE - 7 YELLOW - 8 DL ~ NC -NO ~ R - O _ It follows from these arrangement ~ that we can ~ ut ~
color and / or digital names (in black and white) in combining the tones and codi ~ ier thus of information apt its being received and interpreted by the receiver as by the user. (The phone and video buttons ~ could have these same colors) 2 The manipulation process also uses the symbolism of colors of the basic organization chart for orientation.
This is characterized in that the four cardinal points are represented by the four fundamental tones: BLUE and YELLOW, RED and VER ~, opposite colors whose center is GRAY and in 3 that the table is completed with other dlrectional points opposite other colors (except black), the application of this procedure gives The following flow chart n ~ A2:
_ NO ~ WEST NORTH HIGH NORTHEAST
(VIOL ~ Tl) (~ LEU-2) (CYAN-3) WEST LEFT C ~ NTRE IS RIGHT ~
(ROUGR - 4) (GRAY-5) (GREEN-8) ___ ,, _ 40SI ~ OUE ST SUD BAS SUD- ~ ST
(O ~ ANCE-7) ~ BLANC-9) the çt It follows from ce3 disposltlons that the receiver has a ~ function le bous ~ ole ~ neu ~ dlrections, the four points cArdinau ~ quatre F, lnterm ~ diaire ~ and the center (ie ~ ie ~ 1eB C ~ BO 10 center vllle, the center of interest, the center of attraction, the center of interest, the center ! 5 5 of its preocupatlons, "le mol" ~. The four cardinal points 3 can mean the top, bottom, left and drolte.
m The manipulation process and applies to $ 1s on 1B
., chromatic programming is characterized in that it takes into account ¦ elementary human activities and states of constraint.
: e I lO It is carried out with two manipulations of the basic organization chart, one divergent and the other convergent.
t The following flow chart n ~ A3:
~ n INFORMATION GET CONTACT
(VIOLET-l) (8LFU-2) (~ YAN-3) . ~ ~ C +
A OE TER RENTED ~ MAN _ WANT
R3 ~ (G ~ S-5 ~ (GREEN ~ 6) P UI ~ ATT ~ INDR ~ ~ ~ GOAL
(ORAN OE -7) ~ YELLOW-8) (WHITE-9) It results from this arrangement, ~ with the org ~ nigram n ~ A3 s pressing the gray button "me ~ e want" first triggers a n voluntary intention. Several practical ways are offered ~, the colors e peripherics being, ~ oit the representation of the motive of the action, either of the s deliberation, and 'organ ~ gram ~ en ~ A4 convcrgent follan ~:
if _ . _ DEPARTURE OF LEISURE ACCOMMODATION
(PURPLE ~ 2) (CYAN-3) e S ~ COU ~ S MEN ~ CONS ~ IT
~ RED-4) ~ GRAY-5) (GREEN-6 ~
30 _ ~ ~ _ ~.
T ~ AVAIL RESTAURATION AR ~ IY ~
(ORANG ~ -7) (YELLOW ~ -8) (WHITE-9) It follows from this arrangement that with the organization chart n ~ A4 the concentration of peripheral colors towards the GRAY center gives eight manipulation ~ executories ranging from intentlon or envy to "the self".
According to another aspect of the invention, a reprogramming of the keys of the organization chart is characterized by the falt that it can carry out from the mission.
It follows that the re ~ distributlon of the a69ertions according to the : ~ oouleurs can give and correspond according to the needs ms ~ let ~ res or de ~ mo ~ s, deg chlfrres or de ~ nombre ~, de ~ musical notes ~ u de3 ~ c ~ ords, 6ymbol ~ s or rormul ~ s, also blen ~ u '~ of ~ objects, properties ~ S.
reports, from ~ ~ t ~ ts, d ~ s ~ ctl ~ n ~, ~ events, from ~ ~ c ~ narli, d ~ 5 Lnferences, programs ~, ~ tc The result is also that an adaptation of the system for ~ 5 deflnltion ~ chromatlque ~ of oh ~ ets in the ~ undertaken p ~ rtlclpe then, ~ u as well as other functions (IT, administration, production, normalization, communlcation, circulation, etcO ..) ~ cr ~ atlon or ~ la complement ~ rity of a sy ~ teme of management ~ lobal automatl ~ é.
10 '10 Le3 déslgnation ~ colorimetrlque ~ and / or numeric seraien ~
displayed ~ next to traditional indlcatlons ~ tables ~ ux or panels synoptics, would figure on the plans, guides, directories, files ... As well as on the 5 catalog ~, the_ messages and advertising spots 1 of 3 products ~ and ~ would have gone ~ ~ ~ from ~ reference ~
mnemonicQ and classifications.
These color designations also taking into account Existing chromatic coding, a ~ ssl ~ icatlon normall ~
would organize the whole ~ ~ ervlce ~ rech ~ rch ~ by lo ~ ~ tillers de 2C
the invention. A ~ codlflc ~ tion of ba8e pl ~ nlSl ~ chelon n ~ tlonal would give the same ~ couleùrQ ~ each ~ Ma ~ rie, ~ each Pharmacl ~ ...
Basic chromatic normalization planned on a scale wider would allow, ~ an ~ the language barrier, ~ each lndlvldu in 2S any country, to find, routes, places, accommodation, catering, 2-services, trade ~, correspondents ... Private places, covered or closed use the color combinations according to their own criteria.
The basic color chart is, in a way, a chromatical palindrome and the assertions which have been attributed to it have 3t were defined for a directional and informational purpose for tourists, motorists, consumers and residents.
~ 3!
~ ien that we have described ~ partlcullers goals and represent ~
particular embodiments of a sy ~ tem of trQnsmisSion and receipt of information according to the invention, it should be understood that the present invention is in no way limited to these forms and these aims.
Thus it is included in this system of communication and r ~ ceptlon dan5 lequ ~ l le3 functiona not seralent only directional, informational ~ and classlfi ~ nte ~ m ~ is ~ also po ~ lr perform diagnostics. This is characterized in that the absorption 5 diff ~ rontlOll ~ du ~ yoM ~ m ~ nt ~ l ~ ctromaen ~ tlque en bQnd ~ U d ~ t ~ cte ~ g ~ l ~ men ~
an as ~ omalio of ~ re ~ ol ~ tion of oxygen ~ ne, hence 11 rbsult ~ that the receiver and the U-shaped transmitter (2 + 5 ~ 6 ~ 7) in U-band can be used to ~ diagno8tlquer1 90US form ~ primalre ~ through the body of a vivar being.
lrradi ~ by the said appllcateur, an anomaly of percolation of the ox ~ g ~ ne clinical symptom of a cancerous tumor or pulmonary edema.
Similarly in the dlrectionnel case, it is also ~
pro ~ pcctif, it ~ ta dlre that the goal ~ reach in ~ onctlon of criteria established is not es3entiellement g ~ ographlque mals also physlque.
. ~
Rel ~ ve encoro of the invention a system ~ me of transmlssion information type pr ~ clt ~ dan ~ which the vector waves of lnformation are either lumineu ~ es of the laser type, ~ olt ~ electromagnétlques ¦ types hyper ~ r ~ quenc ~ and frequency modulatlon, Drink 1 ~ BU of comblnai ~ on of all or in p ~ rtle9 ~ tr2n8mlssions of these waves.
It should also be understood that the system of the invention is not pa ~ limlt ~ ~ u only case where the ~ receivers ~ have only ~ only Let’s work with reception and processing of information, but it tends to also in case the ~ r ~ receivers are themselves transmitters allowing an lnterro ~ atlon and possibly a dlalogue with the transmitters or with other users.
Rel ~ ve also of the invention that if the ~ four v ~ riations present ~ es ~ pa ~ shooting of the basic organization chart were ~ worked out for established ~
I an 8 ~ simple and fast dialogue for the majority of individuals ~ to obtain ¦ information ~ during their ~ displacements, it will be solt that the system ~ e ¦ allows other3 ~ ariations on the same theme and / or 8ur applications ~ tions professional ~ t that ~ ur oot or ~ anigram may appear longer ~ or less of colors or ~ none.
It must be understood aln3i that 1R port ~ e of the invention is ¦ defined by the content of the description of se ~ general means and that '-will be able to bring any ~ which ~ technlque, ergonomic or aesthetic alence in = e9 él ~ me ~ constitutive ts without p ~ ur ~ utant departing from the scope of the invention.

Claims (65)

18 The embodiments of the invention, concerning the-what an exclusive property right or lien is claimed, are defined as follows: 1. Transmission and reception equipment of information by means of electromagnetic waves, providing at least one transmitter of waves and at least one receiver individual portable, said apparatus using broadband beams, the frequency of emission of said transmitter varying over a frequency range covering partially or totally an absorption band of Earth's atmosphere, the influence of a phenomenon predetermined on the signal of said transmitter being operated and analyzed by the receiver to determine a characteristic of the medium crossed; after analyzing the influence of said predetermined phenomenon said receiver measures the distance L separating it from the transmitter, and function of said distance L and of the magnetic field terrestrial, said receiver determines its geographic position that exact and is in relation to said at least one transmitter. 2. Apparatus according to claim 1, in which said predetermined phenomenon is the different absorption of radiation at least two frequencies different from the spectrum of said transmitter. 3. Apparatus according to claim 1, in which said predetermined phenomenon is the dispersion of phase of the composite signal emitted by said transmitter. 4. Apparatus according to claim 1, in which said medium crossed is the Earth's atmosphere. 5. Apparatus according to claim 1, in which said medium crossed is a substrate separating a radiation applicator of said receiver. 6. Apparatus according to claim 5, in which said medium crossed is the material of the substrate it even if said substrate constitutes an emitter. 7. Apparatus according to claim 4, in which said receptor analyzes the dipole absorption magnetic oxygen from the Earth's atmosphere. 8. Apparatus according to claim 1, in which said receiver detects a percolation anomaly oxygen from the medium crossed. 9. Apparatus according to claim 7, in which the receiver measures the distance L separating it from the transmitter through the analysis of the dipole absorption magnetic oxygen; as a function of said distance L and of the Earth’s magnetic field, said receiver determines its exact geographic position and is located in relation to said audit at least one transmitter. 10. Apparatus according to claim 4, in which the direction of the Earth's magnetic field constitutes one of n measurements necessary for the receiver to determine its position in an n-dimensional space, the receiver deter-undermining the direction of the earth's magnetic field by means of a thin-film microelectronic device. 11. Apparatus according to claim 10, in which said device comprises effect generators Lobby. 12. Apparatus according to claim 10, in which said device comprises semi-magnetodiodes conductive. 13. Apparatus according to claim 10, in which n equal to two by a displacement on the surface of the Earth. 14. Apparatus according to claim 1, in which receiver includes for wave collection issued by at least one of said at least one transmitter a dielectric lens antenna adapted to the wavelength said at least one transmitter, the lens focusing the wave electromagnetic incident on a semi-detector conductive and selective through the interposition of either a filter interference, either from a resonant power line which is of the trapped inverted microstrip type so to obtain the highest coefficient of overvoltage, by these provisions the receiver does not have a prominent antenna and it can be used as is without an external antenna even on board of a vehicle. 15. Apparatus according to claim 1, in which:
said electromagnetic waves are emitted under form of wave trains modulated by pulse coding;
said receiver comprises means of the type digital to process and display information received;
the receiver comprises means of the type analog fulfilling the telemetric function and a analog to digital converter digitizing the signal rangefinder which allow it to be located in relation to the transmitter; and said receiver calculates the distance L separating it transmitter and displays this distance. 16. Apparatus according to claim 1, in which:
said electromagnetic waves are emitted under form of wave trains modulated by pulse coding said receiver comprises means of the type digital to process and display information received;
the receiver comprises means of the type analog fulfilling the telemetric function and a analog to digital converter digitizing the signal rangefinder which allow it to be located in relation to the transmitter; and said receiver calculates the distance L separating it from all points listed by the transmitter and displays these distances. 17. Apparatus according to claim 15 or 16, in which:
said receiver comprises a digital computer determinant, from binary information from of the microwave transmitter modulated by coding pulse and range information digitized by the analog converter and with a four sensor poles which has 2 X and Y axes of reference in the plane clean of the receiver and the electrical signal given by a quadrupole detector, for a geographic point, its precise distance and the measurement of the angle between the axis north / south of the Earth's magnetic field and its own axes the receiver; and the receiver also displays a signal directional memorized which readjusts during movement to a site, a habitat, an object sought and listed other than the transmitter and thereby permanently gives the direction of the determined goal, said receiver being a moving compass which gives the pole of all points searched and listed. 18. Apparatus according to claim 17, in which said transmitter is a laser. 19. Apparatus according to claim 17, in which said geographic point is programmed. 20. Apparatus according to claim 17, in which said geographic point is pre-programmed. 21. Transmission and reception equipment of information by means of electromagnetic waves according to the claim 1, comprising at least one emitter of microwave type, at least one wave emitter frequency modulation and at least one individual receiver portable, said apparatus using a wide beam bandaged; said apparatus using a beam of electromagnetic radiation according to the standardized process of frequency modulation; said receiver comprising digital and analog type means and means radio reception desk to receive and process simultaneously the information transmitted; the receiver at the same time selecting information from two emitting sources of different types and simultaneously displaying them on his screen and broadcasting them through his loudspeaker speaker. 22. Apparatus according to claim 21, in which said at least one transmitter is a laser. 23. Apparatus according to claim 21, in which said broadband beam includes bands absorption triplet 3 rho sigma of oxygen at 60? 6 GHz. 24. Apparatus according to claim 21, in which said broadband beam includes bands infrared and red oxygen absorption at 6.426, 0.7624 and 0.688 microns. 25. Apparatus according to claim 21, in which said broadband beam includes bands absorption of oxygen and nitrogen in the ultraviolet from 0.145 to 0.204 microns. 26. Apparatus according to claim 1, in which:
the receiver is provided with a plurality of keys sensitive that allow you to select from a variety of lity of programs a treatment program of information received; the assignment of said keys depending either on the nature of the emitting sources, or on the type of program. 27. Apparatus according to claim 26, in which said keys are programming. 28. Apparatus according to claim 26, in which said keys are of function. 29. Apparatus according to claim 26, in which said keys are for programming and function. 30. Apparatus according to claim 27 or 28, wherein said keys are calorimetric keys ques. 31. Apparatus according to claim 27 or 28, wherein said keys are alphabetic keys. 32. Apparatus according to claim 27 or 28, wherein said keys are numeric keys. 33. Apparatus according to claim 27 or 28, wherein said keys are symbolic keys. 34. Apparatus according to claim 26, in which said keys are established according to techniques mnemonics. 35. Apparatus according to claim 26, in which said keys are established according to rules vector touchscreen. 36. Apparatus according to claim 26, in which said keys are established according to codifications pre-established according to standards. 37. Apparatus according to claim 26, in which said keys represent either letters or words, either numbers, numbers, or musical notes, either chords, symbols, or formulas, either events, or scenarios, or inferences, either computer languages, or cardinal points; the operator of said apparatus being able to choose information from the distribution of a plurality of possible information by said at least one transmitters. 38. Apparatus according to claim 37, in which said information is displayed. 39. Apparatus according to claim 37, in which said information is audible. 40. Apparatus according to claim 1, in which:
the receiver has no apparent button;
and the receiver, which is pre-programmed for a purpose, use as is without manipulation with an image advertising instead of the key wording. 41. Apparatus according to claim 1, in which:
the receiver is a portable card and individual using micro-opto-magneto-chromo means electronic to select while traveling information; said receiver making it possible to direct oneself precisely without traffic signs, towards at least a specific goal, by displaying signals on its dial directional and alphanumeric and broadcast data through its speaker information about said at least one goal; and to receive during these trips, either automatically public utility information, i.e.
by programming various information at a time longed for. 42. Apparatus according to claim 41, in which said information is selected by program-mation. 43. Apparatus according to claim 41, in which said information is selected by pre-programming. 44. Apparatus according to claim 41, in which said at least one goal is programmed. 45. Apparatus according to claim 41, in which said at least one goal is pre-programmed. 46. Apparatus according to claim 41, in which said public utility information is road safety instructions. 47. Apparatus according to claim 41, in which said public utility information is pre-programmed information. 48. Apparatus according to claim 41, in which said receiver makes it possible to direct in a way precise on foot. 49. Apparatus according to claim 41, in which said receiver makes it possible to direct in a way precise in a vehicle. 50. Apparatus according to claim 29, in which:
said apparatus establishes the dialogue between the receiver and user by means of a syllogism which brings together an organization chart on the keys programming and receiver function and sensitivity the user to develop and then use a new language suitable for defining a programming, a codification, orientation, information and selective classification. 51. Apparatus according to claim 50, in which of the assertions dependent on colors as well as graphical-vector rules are defined, on, from and towards at least one fixed colorimetric coordinate system to obtain, in tracing with a finger on the flowchart, an abbreviated language declarative suitable for programming, codifying, orienting, inform and classify. 52. Apparatus according to claim 50, in which of the schema dependent assertions as well as graphical-vector rules are defined, on, from and towards at least one schematic fixed reference to obtain, in tracing abbreviated language with a finger on the flowchart declarative suitable for programming, codifying, orienting, inform and classify. 53. Apparatus according to claim 50, said apparatus being applied to coding, said equipment taking into account an organization of colors and the natural order of the numbers, and exposing names nations with ten tones capable of being perceived and inter-both by the receiver and by the user. 54. Apparatus according to claim 53, in which said names are colorimetric. 55. Apparatus according to claim 53, in which said names are numeric in black and White. 56. Apparatus according to claim 50 or 53, said apparatus being applied to the orientation and to programming with a particular declarative language, in which:
four cardinal points are represented on the basic organization chart forming a table by the four - fundamental tones: blue and yellow, red and green, opposite colors whose center is gray, and said table being completed with other directional points in look at other colors: purple, cyan, orange, White;
said keys include keys colorimetric and pressing each colorimetric key from the organizational chart we get a new compass function directions, with the four cardinal points, four points intermediaries and a center, said center being either a city center, either a center of interest or a center of attraction, either a center of activity or a center of his concerns;
the organization chart takes into account the activities and elementary states of consciousness of man;
manipulation on this flowchart generates touch traces, pressing the key first gray triggering a voluntary intention by dragging a finger towards the peripheral colors which represent the motives for action and deliberation where multiple pathways practices are offered, and pressing first one of the peripheral color keys by dragging the finger towards the gray center giving eight manipulations enforceable from intention to center, a concerted movement relating to several fixed points realizing a new programming language. 57. Apparatus according to claim 56, in which said tactile traces are divergent. 58. Apparatus according to claim 56, in which said tactile plots are convergent. 59. Apparatus according to claim 56, in which said new programming language is Chromatico-vectorial. 60. Apparatus according to claim 56, in which said new programming language is schematic-vertorial. 61. Apparatus according to claim 56, in which a reprogramming of the receiver keys to other applications are made from a broadcast. 62. Apparatus according to claim 52, in which a reprogramming of the receiver keys to other applications are realized through a traditional computer keyboard connected to the receiver with an interface and peripheral equipment. 63. Apparatus according to claim 56, in which a redistribution of the keyboard keys according to mnemonic techniques give manipulations which relate to various activities, so information is chosen from a stream of sequential information possible. 64. Apparatus according to claim 56, in which a redistribution of the keyboard keys according to pre-established coding gives manipulations which relate to various activities, so information is chosen from a stream of sequential information possible. 65. Apparatus according to claim 56, in which a redistribution of the keyboard keys according to vector tactile rules give manipulations which relate to various activities, so information is chosen from a stream of sequential information possible.