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CN106383334A - Mobile object detecting method based on sound waves and wireless positioning - Google Patents

Mobile object detecting method based on sound waves and wireless positioning Download PDF

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Publication number
CN106383334A
CN106383334A CN201610781333.1A CN201610781333A CN106383334A CN 106383334 A CN106383334 A CN 106383334A CN 201610781333 A CN201610781333 A CN 201610781333A CN 106383334 A CN106383334 A CN 106383334A
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CN
China
Prior art keywords
signal
positioning
base station
mobile
data
Prior art date
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Pending
Application number
CN201610781333.1A
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Chinese (zh)
Inventor
李政林
蒋春利
黄丹
王志
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Guangxi University of Science and Technology
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Guangxi University of Science and Technology
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Priority to CN201610781333.1A priority Critical patent/CN106383334A/en
Publication of CN106383334A publication Critical patent/CN106383334A/en
Pending legal-status Critical Current

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/02Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves
    • G01S5/0273Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves using multipath or indirect path propagation signals in position determination
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S11/00Systems for determining distance or velocity not using reflection or reradiation
    • G01S11/16Systems for determining distance or velocity not using reflection or reradiation using difference in transit time between electrical and acoustic signals
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/02Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using radio waves
    • G01S5/0257Hybrid positioning
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S5/00Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations
    • G01S5/18Position-fixing by co-ordinating two or more direction or position line determinations; Position-fixing by co-ordinating two or more distance determinations using ultrasonic, sonic, or infrasonic waves

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Position Fixing By Use Of Radio Waves (AREA)
  • Measurement Of Velocity Or Position Using Acoustic Or Ultrasonic Waves (AREA)

Abstract

The invention discloses a mobile object detecting method based on sound waves and wireless positioning. The method mainly comprises that a supersonic wave emitter and an RF emitting module of a base station emit supersonic wave and RF signals to a mobile object node regularly; an RF reception module of a mobile object receives the RF signals, and then starts timing and waits for reception of the supersonic wave signals, and received wireless data is determined to determine which reference node sends the data; and a coordinate value is calculated after receiving the supersonic wave signals, and a coordinate of the mobile object is obtained. Thus, the defects that the positioning of the mobile object is inaccurate and a positioning system is high in design cost in the prior art are overcome, and the method has the advantages of accurate positioning, low cost and easy realization of the positioning method.

Description

Detection of Moving Objects based on sound wave and wireless location
Technical field
The present invention relates to field of locating technology, in particular it relates to the detection based on sound wave and the mobile target of wireless location Method.
Background technology
Continuous development with wireless terminal device and wireless sensor network and connected applications, people are to positioning service Demand is increasing, particularly indoor positioning service.In the research of current indoor positioning technologies, the indoor positioning of two dimensional surface Technology is in the majority, and the research of three-dimensional indoor positioning technologies is then relatively fewer, but in actual location demand, two dimensional surface Indoor positioning technologies tend not to meet the demand to positional information for the user, such as the position in Post disaster relief, residing for trapped personnel Put impossible on two dimensional surface it is necessary to could obtain oppressive in the very first time using three-dimensional indoor positioning technologies The more specific location information of member;In mining safety monitoring, because subsurface environment is complex, person works place ratio is relatively decentralized, Lead to the indoor orientation method of two dimensional surface inapplicable, only can be accurate using three-dimensional indoor positioning technologies Solution down-hole situation;Indoors in environment measuring, because the position that different monitoring sensors is placed differs it is also desirable to use Three-dimensional indoor positioning technologies could obtain the monitoring effective positional information of sensor.Therefore, three-dimensional indoor fixed Position technology, compared with the indoor positioning technologies of two dimensional surface, is more of practical significance and application prospect.
Common indoor positioning technologies have:Infrared ray positioning, WLAN positioning, bluetooth position, Zigbee positions, RF identification positioning, ultra broadband positioning and ultrasound RF positioning etc..The positioning precision of infrared confirming orientation technology has limitation Property, the presence or absence of mobile target property can only be judged, precision is difficult to improve, and ultrared penetrance is poor, is difficult to penetrate wall Deng physical obstacles.The base station that WLAN location technology needs is few, the WLAN pair in achievable building The perceptive function of position, but track and localization environment must support WLAN, restrictive in condition, and each Base station and mobile target must be all computer equipments, and design cost is higher.Bluetooth location technology is applied to small range positioning, Equipment volume is little, but price is relatively costly, and in the complicated interior space, this system is subject to the interference of noise signal big, stability Can decrease.Zigbee location technology is mainly suitable for being used in and is automatically brought into operation and the fields such as remotely control, can be embedded in various setting In standby, have self-organization, low complex degree, low-power consumption, closely property, low data rate, low cost the features such as, but be equally also subject to The restriction of positioning precision.RFID location technology has the characteristics that small volume, carries flexible, low cost, but it is subject to positioning time, determines The condition such as complexity of position precision and indoor environment limit the occasion it is adaptable to not high to required precision.Ultra broadband positions Technology adopts the time width of ultra-narrow pulse, and it does not have line-of-sight requirement, system complexity is low, it is strong, safe to have penetration power, The advantages of anti-multipath jamming effect is good, positioning precision is accurate.But at present, domestic ultra wideband location techniques are only in radar side Face possesses some special knowledge effect, does not substantially form research scale in terms of other field;And with respect to other indoor orientation methods, surpass The cost that broadband technology is used for indoor locating system is higher, power consumption is also higher.The positioning accurate of ultrasound RF location technology Degree can reach centimetres scope, and user has self confidentiality and the measurability to multiple dispersion objects simultaneously, But the timing due to ultrasonic pulse and rf data and process are all on mobile receiver, can lead to lack system centre monitoring And management, increase the computation burden of mobile receiver, require electric power bearing capacity big simultaneously.
During realizing the present invention, inventor finds at least there is Position Design high cost in prior art, positioning The defect such as inaccurate.
Content of the invention
It is an object of the invention to, for the problems referred to above, the detection based on sound wave and the mobile target of wireless location is proposed Method, to realize improving the accuracy to Moving objects location, reduces the design cost advantage of alignment system.
For achieving the above object, the technical solution used in the present invention is:Mobile target based on sound wave and wireless location Detection method, main inclusion:
A. system initialization;
B. the ultrasonic transmitter of base station and radiofrequency emitting module to mobile destination node periodically launch ultrasound wave and Radiofrequency signal;
C., after moving the Receiver Module reception radiofrequency signal of target, start calendar scheduling ultrasonic signal to be received, and The wireless data receiving is judged, is the data which reference mode sends to distinguish;
D. proceed by coordinate figure after receiving ultrasonic signal to be calculated, draw the coordinate of mobile target;
E. the data obtained is sent to base station, be transmitted by the base station to host computer.
Further, described base station is set to 3, and mobile goal setting is 1.
Further, the radiofrequency signal of each Base Transmitter includes only space ID, coordinate and the measurement of this reference mode Temperature.
Further, described step b-d is specifically, when system electrification starts, mobile target period transmitting ultrasound wave is believed Number and radiofrequency signal, base station receive and computed range information, then sink information target location meter is carried out on main control module Calculate;After positioning starting, positional information and ultrasonic pulse signal are periodically sent by base station, and mobile intended recipient arrives From the information of each base station, mobile target from calculate its target location, when positioning states are not good, mobile target Start periodically to launch ultrasound wave and radiofrequency signal, base station receives and computed range information, and then sink information is to main control Target location calculating is carried out on module.
Further, described radio-frequency module launches radiofrequency signal and the work process of reception radiofrequency signal is specially:
A1, the control chip to radio-frequency module and transceiving chip initialization, and corresponding registers are set for SPI communication;
A2, single-chip microcomputer produce and send a signal to radio-frequency module;
A3, radio-frequency module are arranged by depositor and send position, then through modem, voltage controlled oscillator and power amplification Pipe amplifies signal and data is activation is gone out;
A4, the receiving terminal of mobile target produce receipt signal, through low-noise amplifier and automatic gain control amplifier After feedback pass through modem codec, by SPI communication feed back a digital signal, in signal amplification stage, this signal with The signal of signal intensity instruction is compared and passes to modem;
A5, the data storage receiving in both the buffers, and are compared with the data sending, if completely pass through LED To judge.
Various embodiments of the present invention, included due to main:The ultrasonic transmitter of base station and radiofrequency emitting module are to movement Destination node periodically launches ultrasound wave and radiofrequency signal;After the Receiver Module of mobile target receives radiofrequency signal, open Beginning calendar scheduling ultrasonic signal to be received, and the wireless data receiving is judged, it is which reference mode is sent out to distinguish The data sent;After receiving ultrasonic signal, coordinate figure is calculated, draw the coordinate of mobile target;Existing such that it is able to overcome There is inaccurate to Moving objects location in technology, the defect of Location System Design high cost, there is registration, low cost, determine The advantage of method for position simply easily realization.
Other features and advantages of the present invention will illustrate in the following description, and, partly become from description Obtain it is clear that or being understood by implementing the present invention.
Below by embodiment, technical scheme is described in further detail.
Specific embodiment
Hereinafter the preferred embodiments of the present invention are illustrated it will be appreciated that preferred embodiment described herein is only used In the description and interpretation present invention, it is not intended to limit the present invention.
Specifically, the main research purpose of scheme is to provide precision in a centimetre amount to the mobile personnel of indoor environment or object The real-time dynamic positioning of level scope, and provide the functions such as reliability, measurability, confidentiality to user, requirement simultaneously has Rational cost performance is it is ensured that relatively low design cost.
The positional parameter of indoor positioning is the three-dimensional coordinate of thing to be positioned.The cardinal principle of this alignment system is, according to three Side measurement method, first pass through supersonic sounding method measure respectively certain or multiple node to be positioned to known reference node it Between actual range, additionally, it is known that the three-dimensional coordinate of node, after these data are focused on, be calculated mobile mesh Target elements of a fix result.
Reference mode is fixed on the diverse location on ceiling respectively, but when our actual tests, is by reference Node is fixed on room floors with the layout type of equilateral triangle.Node to be positioned is then to be installed in mobile target, and And can be with surrounding random movement.The layout of known reference node must comply with certain geometry and requires it is impossible to be distributed simultaneously Point-blank, nor be distributed on a concentric circular, otherwise, the equation group unknown quantity number of formation will be more than known Amount number, leads to not be calculated using the method for least square of trilateration.
The principle of ultrasonic ranging is because the aerial spread speed of ultrasound wave is known, sends out in ultrasonic transmitter After sending ultrasound wave, through one section of propagation time, receptor receives signal, the time that this section of propagation time as sends and receives Difference, then according to the relation between distance and time and speed, can calculate the actual range between sending and receiving a little.
The fundamental formular of range finding is as follows:D=vust
Wherein, d represents the actual range between sending and receiving a little, vusRepresent the aerial spread speed of ultrasound wave, Typically when indoor temperature is at 20 DEG C, spread speed is 344m/s, and t represents transmitting and receives vusRanging time.
As can be seen here, the basic influence factor causing range error mainly includes the spread speed of ultrasound wave and transmission and connects The ranging time received.On the one hand, the spread speed of ultrasound wave is affected by atmospheric density, and the density of air is higher, ultrasound wave Spread speed is faster, but the density of air has close relationship with temperature, humidity again, and therefore, temperature, humidity etc. are to super The spread speed of sound wave has an impact, and produces impact to supersonic sounding.So, can be by compensating to temperature and humidity Mode is revising spread speed, and then improves the precision of range finding.On the other hand, during software realization, by enumerator To complete to the timing sending and receiving ranging time.The separation layout of ultrasound emission and receptor can cause the meter of ranging time Shi Yanchi, the precision of gate time to be improved, then need to synchronizing process between ultrasonic transmitter and receptor, that is, will Ask the moment ensureing that launcher signal sends, receptor can count at once.Radiofrequency signal is adopted to believe as internal synchronization herein Number, close to the light velocity, its propagation time is short enough to be negligible the speed being primarily due to radiofrequency signal, and can be hard It is achieved on part.
The wireless distance finding chip using is the JN5168 at grace intelligence Pu (NXP).This IC range finding has both of which:Wireless signal is strong Degree range finding and TOF wireless signal flight time find range.
Find through experiment test, the error of wireless signal strength range finding is very big, is difficult to meet subject demand, and TOF is no Then precision is many higher for the range finding of line signal flight time, so when this works uses TOF (Time of Flight) flight The method of difference range finding.In equipment work process, remain that transmission equipment and receiving device must be synchronous all the time, in order to realize Clock is synchronous, and TOF jet lag distance-finding method employs clock offset to solve the problems, such as in clock synchronization.But due to TOF In local and remote node, range accuracy is easily affected the time-dependent of distance-finding method by clock offset in two end nodes. In order to reduce the impact of this kind of mistake, many times adopt reverse measuremenet method, that is, remote node sends packet, local node Receiving data bag, and automated to respond to, by the average meansigma methodss in forward and reverse gained, reduce to any clock offset Impact, thus reduce range finding.
Each distance measurement value and each known reference node are obtained according to the node to be positioned in target mobile in this system The mathematical relationship that constituted of D coordinates value, the coordinate of node to be positioned can be calculated, but these distance measurement values and known The D coordinates value of reference mode is dispersed on each node, needs to focus on and could pass through mathematical method on same node Calculated.Complicated in view of indoor layout, if adopting wired layout, will certainly be more complicated, increase system positioning Degree of difficulty, and it is unfavorable for the movement of node to be positioned, line arrangement etc..With the development of radio frequency technology, wirelessly The advantage of data transfer is obvious, therefore, substitutes wire transmission mode so that alignment system using wireless transmission method in literary composition Beneficial to control and easy.
Wireless data transmission, typically namely radio communication, refer to from a place to another place carry out transmission and Exchange information.Realize all technical equipment and the transmission medium of information transmission, be referred to as communication system.The basic composition of this system Part, including the channel between transmitting terminal, receiving terminal, and transmitting-receiving two-end.
Baseband signal generally refers to not manage the initial signal of mode through ovennodulation etc., and the frequency of this signal is relatively low, is So that baseband signal is transmitted in the channel, be allowed to require to match with the transmission characteristic of channel, can pass through dispensing device Baseband signal is carried out with various conversion and processes, wherein, dispensing device can be by circuit such as specific amplification, filtering, modulation The system of composition.Channel is the physical channel of signal transmission, can there is the random noise disturbance that many be can not ignore in channel, with When, equally there is also much noise in whole communication system.In receiving terminal, the function of reception device is contrary with dispensing device, It can recover corresponding initial signal from the signal receiving.The stay of two nights refers to be converted into accordingly the initial signal of reduction The data message with practical significance.
Radiofrequency signal can be selected because radio frequency signal frequency is sufficiently high in space fast propagation herein as wireless data The carrier of transmission, in the design of system, radiofrequency signal can carry the temperature of coordinate information, distance measurement value, circuit board and environment Angle value etc..
According to the layout scenarios of mobile target and known reference node, the targeting scheme of system can be designed as:Mobile mesh Mark active sending signal and mobile target passive receipt signal two ways.
Active mode refers to node to be positioned periodic transmission ultrasound wave and the radio-frequency information on one's own initiative in mobile target, ginseng Examine node to receive and computed range information, then sink information carries out the calculating of target location on main control module again;Actively Mode can avoid the interference of error message, the positioning of mobile target is easier to, and precision is higher, but amount of calculation is relatively Greatly, need repeatedly to enter being wirelessly transferred of row information, increased usage amount and the design cost of equipment.
Passive mode refers to be fixed on the reference mode of ad-hoc location periodically by their positional information and ultrasonic Wave pulse signal sends, and then node to be positioned receives the information from each reference mode, in mobile target certainly Calculate its target location with it.In passive mode, mobile target once can only receive the letter from a known reference node Number it is impossible to the distance between calculate with each reference mode simultaneously, and each reference mode sending signal closely spaced, gesture Interfering of information between different reference modes must be led to, increase calculation error, lead to precision to reduce.But this positioning mode Only need to reference mode and send information to mobile target, mobile target just can be calculated the target location of itself, saves Positioning time and the usage frequency of equipment, the location privacy of mobile target is preferable.
The system combines both pluses and minuses, using a kind of compound mode, makes both play complementary action;
The principle of this compound mode is:When system starts power up work, using active mode, notification reference node starts Sending signal, after positioning starting, will have been used up passive mode and continuously dynamically be positioned, can be potentially encountered in position fixing process Position error increases or the bad problem of filtering error effect, once it is not good system mode is detected, will again handoff to lead Flowing mode puts correction to being positioned into line position.Which can obtain the certainty of measurement suitable with active mode, and is capable of The confidentiality requirement of moving target position.Unfortunately, in Passive Positioning, the information between different reference modes can interfere. Certain interference protection measure will be taken for this problem system, reduce the position error of system.
From design principle and the positioning mode of system, the structure of this indoor locating system mainly includes some known Node to be positioned on reference mode, mobile destination apparatus etc..This indoor locating system is to be positioned when single goal is positioned Node only one of which, if to can have several nodes to be positioned during Multi-target position.Each known node and treating in system Positioning node comprises the contents such as hardware circuit and soft communication agreement respectively it is known that signal node hardware on the ceiling and shifting Signal transmission between moving-target hardware, the common positioning function realizing entirety.
The effect of hardware components is to provide to alignment system control, send and the drive circuit receiving, Main Basiss function Require hardware components are designed;It is known that in the node to be positioned of reference mode and mobile target each node hard Part circuit part, includes radio-frequency (RF) receiving and transmission module, ultrasonic emitting and receptor, Single Chip Microcomputer (SCM) system, power module, host computer respectively Communication section is graded.Singlechip controller controls modules part by interface routine, realizes normal ultrasound wave and radio frequency letter Number transmitting-receiving, display, control and the required test of various parameters and supervision
Location algorithm is calculated mainly in conjunction with the method for least square of trilateration, is carried out using filtering algorithm simultaneously The Filtering Processing of error in data, reduces the impact that the random noise of indoor environment is brought to system;In addition, multiple nodes lead to simultaneously Letter certainly exists the interference between signal it is necessary to possess interference protection measure, and anti-locking system cannot normal work.
For radio-frequency module, from JN5168 wireless controller.JN5168 is a super low-power consumption, high performance wireless SOC module.It enabled users within the time the shortest, realized based on IEEE802.15.4 with most economical design or The Radio Network System of ZigBeePRO, decreases user and carries out RF radio frequency design and the time of encapsulation, have spy easy to use Point.Meanwhile, this wireless controller also has the features such as high performance CPU, super low-power consumption, massive store, excellent RF performance.And And it comprises abundant peripheral components interface, the demand of different aspect can be met, reduce development cost.
JN5168 compatibility multiple network protocol stack, supports the point-to-point, networking such as star network, tree network, mesh network Mode, disclosure satisfy that various standards and off-gauge network topology demand, has a platform, the advantage of kinds of schemes and spy Point.
This wireless controller is configured with high performance 32 risc processors, Imbedded Flash and E2PROM, by broadening Spend instruction, multistage instruction pipeline, low-power consumption and programmable clock speed to improve code efficiency.With also having one in time slice Meet wireless transceiver and a series of abundant simulation, the digital peripherals of IEEE802.15.4 2.4GHz standard.Cooperation is ultralow Operating current and low-power consumption sleep characteristic, equipment utilization button cell can be made to power and extend the life-span of battery.
The also a series of Wireless networking protocols stacks meeting various Internet of Things applications simultaneously released with chip, for example JenNet-IP、ZigBee Pro Home Automation、ZigBee Pro Light Link、ZigBee Pro Smart The protocol stacks such as Energy and ZigBee RF4CE;Greatly simplifie using JN516x series wireless microcontroller exploitation family certainly The difficulty of the applications such as dynamicization, intelligent energy, intelligent lighting, intelligent medical and remotely control, accelerates development progress.
A7139 chip is a inexpensive, high efficiency that electronics (AMICCOM) company of TaiWan, China sheng, a reed pipe wind instrument section develops recently It is operated in the transceiver module within 1GHz, and all routine ISM bands all can be applied within 1GHz.This module has surpassed at present It is widely used in GB intelligent radio to check meter and the bidirectional data transmission system scheme such as Internet of Things MANET, this module has low work( Many advantages, such as consumption, high receiving sensitivity, high emission power, be the first-selection being applied in long short distance wireless data transmission scheme Module.A7139 can realize sending and receiving the function of radiofrequency signal by radio circuit and antenna.
A7139 is mainly sent and received signal using RF0 and RF1 port, comes through some register-bit of chip internal Detect whether to send and receive, certainly also include connecting signal by the depositor of the related SPI interface of setting.Single-chip microcomputer exports Or the digital signal of input is required for the corresponding functional position of SPI depositor in A7139 is configured thus producing corresponding rush Send out the signal receiving or launching, be then modulated the analysis of demodulator, through voltage controlled oscillator (VCO) and power tube (PA) Launched to amplify signal.During reception mode, the radio-frequency input signals of reception is through low-noise amplifier (LNA) and automatic gain Upset after controlling amplifier (AGC) feedback regulation to amplify enters frequency mixer, is mixed by frequency mixer and produces intermediate-freuqncy signal (IF).? In the IF process stage, this signal sends a signal to ADC depositor, setting corresponding registers position and the signal intensity receiving simultaneously (RSSI) control register indicating.This special structure determination indoor locating system can use controller single-chip microcomputer core Piece carries out selection and the control of reiving/transmitting state to A7139, can be carried out data transmission by SPI mouth between them.
Radio-frequency module is mainly radio communication, and STM8 and A7139 passes through SPI port communications.On hardware by the CKO of A7139, GPIO1 with GPIO2 is connected with PB0, SPI_MISO and PD0 pin of STM8, also SDIO, SCK and SCS pin and STM8 SPI_MOSI, SPI_SCK and SPI_NSS pin connects, and single-chip microcomputer accesses A7139 correlation by SCS pin is set low level Depositor, in the rising edge of SCK, the data of SPI will be latched in a register, therefore wants transmission data should be in SCK Trailing edge when.Also there is the peripheral circuit of A7139, main design considerationss are to be configured according to its frequency, this Literary composition uses 433MHz, and this hardware circuit of basic peripheral circuit mainly includes filter capacitor, bypass circuit and RF coupling, filter Ripple, power supply Rhizoma Nelumbinis are closed, SPI interface designs etc..
The mobile target that indoor locating system mainly carries mobile radio label to interior carries out location positioning, needs Complete collection, transmission, process and the display of information.In order to realize systemic-function, need to comprise RFID information acquisition system, wireless Transmission system, location data center and locating and displaying system, wherein, RFID information acquisition system mainly passes through rfid interrogator pair The RFID label tag carrying in multiple mobile targets enters the transmission of the collection data of row information;Wireless transmitting system is to read RFID Write the form that the data that device transmits passes through to be wirelessly transferred and pass to location data center;Location data Central Radical factually when number Position the inquiry with historical data according to the location estimation moving target with data storage;Alignment system passes through locating and displaying circle Face carries out real-time positioning and monitoring detecting indoor article movement.
In position fixing process, it is possible to start to position after each node and module normally go up electricity, reference mode will be in positioning During periodically launch ultrasound wave and radiofrequency signal, the node to be positioned that mobile target is located waits receipt signal.Mobile Intended recipient to after radiofrequency signal, that is, achieves radio frequency synchronization, and node to be positioned starts the arrival that timing waits ultrasonic signal, Respectively the data being wirelessly transferred being judged simultaneously, to distinguish which node is data be derived from, finally entering according to positioning principle Row coordinate calculates.Indoors in alignment system, the radio-frequency module of each reference mode periodically launches radiofrequency signal, including Information content is mainly made up of the ambient temperature etc. of unique space ID, coordinate and measurement.
In conjunction with the content of radiofrequency signal, the requirement that sends and receives mode, design procedure is mainly as follows:
1. pair control chip and radio frequency chip initialize, and setting corresponding registers are SPI communication.
2. master chip produces and sends a signal to radio-frequency module.
3. radio-frequency module is arranged by depositor and sends position, then puts through modem, voltage controlled oscillator and power tube Big signal goes out the data is activation in buffer area.
4. receiving terminal produces receipt signal, by adjusting after low-noise amplifier and automatic gain control amplifier feedback Modulator-demodulator decodes, and feeds back a digital signal by SPI communication.In signal amplification stage, this signal is indicated with signal intensity (RSSI) signal is compared and passes to modem.
5. the data storage receiving in both the buffers, and is compared with the data sending, if complete by LED Lai Judge.
Sending of radiofrequency signal mainly carries out data encoding by the digital signal that single-chip microcomputer exports, and is then compiled by channel The mode of code is transformed into digital baseband signal, then by way of digital modulation, digital baseband signal is become digital band letter Number, this digital band signal can be sent in channel by antenna.
The reception process of radiofrequency signal, then contrary with transmission process, digital band signal is become by advanced row digital demodulation Digital baseband signal, then carry out channel decoding, final data decodes, and obtains required digital signal.
Indoors in alignment system, radio-frequency technique is a kind of key technology, is the inevitable means realizing wireless location, and And, radio-frequency technique is different from the mode that other technologies combine, and locating effect is different, and precision is also not quite similar.Adopt herein Based on the indoor locating system scheme of radio-frequency technique and ultrasonic technology, and the positioning mode that adopted and filtering algorithm, it is In all localization methods, positioning precision is relatively optimal.
The ultimate principle of analyzing and positioning trilateration, to improve positioning using node redundancy method and method of least square and to sit Target precision;By analyzing the principle of ultrasonic ranging, synchronously arranged using the radiofrequency signal between transmitting terminal and receiving terminal To improve the precision of range finding;Radio-frequency module functions simultaneously as the transmission medium of wireless data;Positioning mode adopt positive location with The method that Passive Positioning mode combines, which flexibility and reliability, be conducive to dynamically positioning.
In the design of radio-frequency module, mainly using low cost, low-power consumption, programmable A 7139 chip, its data transfer Speed is big, provides the functions such as processing data packets, data buffering.Radio-frequency module is transmitted using STM8L051F3 single-chip microcomputer and Receive and control, experimental verification system stability and functional reliability.
Following beneficial effect at least can be reached:Reduce alignment system design cost, improve system stability and can By property, improve positioning precision simultaneously
Finally it should be noted that:The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, Although being described in detail to the present invention with reference to the foregoing embodiments, for a person skilled in the art, it still may be used To modify to the technical scheme described in foregoing embodiments, or equivalent is carried out to wherein some technical characteristics. All any modification, equivalent substitution and improvement within the spirit and principles in the present invention, made etc., should be included in the present invention's Within protection domain.

Claims (5)

1. the Detection of Moving Objects based on sound wave and wireless location is it is characterised in that comprise the following steps:
A. system initialization;
B. the ultrasonic transmitter of base station and radiofrequency emitting module periodically launch ultrasound wave and radio frequency to mobile destination node Signal;
C., after moving the Receiver Module reception radiofrequency signal of target, start calendar scheduling ultrasonic signal to be received, and dock The wireless data received is judged, is the data which reference mode sends to distinguish;
D. proceed by coordinate after receiving ultrasonic signal to calculate, draw the coordinate of mobile target;
E. the data obtained is sent to base station, be transmitted by the base station to host computer.
2. the Detection of Moving Objects based on sound wave and wireless location according to claim 1 is it is characterised in that described Base station is set to 3, and mobile goal setting is 1.
3. the Detection of Moving Objects based on sound wave and wireless location according to claim 2 it is characterised in that each The radiofrequency signal of Base Transmitter includes the temperature of only space ID, coordinate and the measurement of this reference mode.
4. the mobile mesh object detection method based on sound wave and wireless location according to claim 3 is it is characterised in that institute State step b-d specifically, when system electrification starts, mobile target period launches ultrasound wave and radiofrequency signal, and base station receives simultaneously Computed range information, then sink information target location calculating is carried out on main control module;After positioning starting, base station is periodically Positional information and ultrasonic pulse signal are sent by ground, mobile intended recipient to the information from each base station, are moving From calculating its target location with it, when positioning states are not good, mobile target starts periodically to launch ultrasound wave to moving-target And radiofrequency signal, base station receive and computed range information, then sink information target location calculating is carried out on main control module.
5. the Detection of Moving Objects based on sound wave and wireless location according to claim 1 is it is characterised in that described Radio-frequency module launches radiofrequency signal and the work process of reception radiofrequency signal is specially:
A1, the control chip to radio-frequency module and transceiving chip initialization, and corresponding registers are set for SPI communication;
A2, single-chip microcomputer produce and send a signal to radio-frequency module;
A3, radio-frequency module are arranged by depositor and send position, then through modem, voltage controlled oscillator and power amplifier tube Amplify signal data is activation is gone out;
A4, the receiving terminal of mobile target produce receipt signal, through low-noise amplifier and automatic gain control amplifier feedback Pass through modem codec afterwards, a digital signal, in signal amplification stage, this signal and signal are fed back by SPI communication The signal of intensity instruction is compared and passes to modem;
A5, the data storage receiving in both the buffers, and are compared with the data sending, if completely sentenced by LED Disconnected.
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