CN109581446A - One kind can be used for indoor positioning system and localization method - Google Patents

Abstract

The invention discloses one kind can be used for indoor positioning system and localization method, method includes: first step measurement LBS base station coordinates: the characteristics of GNSS signal positions can be used using outdoor environment and obtain mobile terminal GNSS coordinate, mobile terminal sends Location Request message to location service center, location service center sends positioning message to mobile terminal, mobile terminal replys the positioning message palindrome, calculate the positioning message palindrome, mobile terminal is obtained to the pseudorange of the base station LBS, calculates LBS base station coordinates using the GNSS coordinate of pseudorange and mobile terminal；Second step calculates mobile terminal coordinate: mobile terminal issues Location Request message, location service center issues positioning message to mobile terminal, mobile terminal and the base station WPS receive positioning message and send the positioning message palindrome to location service center, the positioning message palindrome for comparing calculating mobile terminal and the base station WPS obtains mobile terminal to the base station LBS pseudorange, using mobile terminal to the base station LBS pseudorange and LBS base station coordinates, the coordinate of mobile terminal is calculated.

Description

One kind can be used for indoor positioning system and localization method

Technical field

The present invention relates to Technology for Target Location, and in particular to one kind can be used for indoor positioning system and localization method.

Background technique

People's trip increasingly be unable to do without electronic map, positioning and navigation Service.

The radio positioning system of early stage, as Loran, Transit Navigation System, and Chinese long river system etc. are main To be applied to coast defence and shipping, at present already by GPS GNSS (Global Navigation Satellite System) it eliminates.Be currently available that wide area positioning service system include GPS, BDS, GLONASS, GALILEO, The 6 large satellite navigation system such as IRNSS and QZSS.GPS, BDS, GLONASS, GALILEO have been carried out Global coverage.

In GNSS position fixing process, terminal tracks multi-satellite simultaneously, while receiving the positioning message of multi-satellite, terminal choosing The signal for selecting at least 4 relatively good stars of signal is resolved, and local coordinate system is calculated.In order to improve the positioning accurate of GNSS system Degree eliminates common error and common parameter achievees the purpose that improve positioning accuracy there has been proposed Differential positioning method.GNSS is fixed During position, there is three parts errors.First part be it is all existing to mobile terminal, e.g., satellite clock error, ephemeris miss Difference, ionospheric error, tropospheric error etc.；Second part is propagation delay error, this fractional error cannot be surveyed by mobile terminal Amount is calculated by calibration model；Part III is the intrinsic error of mobile terminal, such as internal noise, channel delay, multipath Effect etc..Using differential technique, first part's error can be eliminated completely, and second part error can largely be eliminated, master The distance of reference receiver and mobile terminal is depended on, Part III error can not then be eliminated.

So-called Differential positioning, working principle are exactly by certain regional scope, in control point restocking known to ground If a GPS reference station, GPS reference station record GPS positioning information in real time, by with ground known to control point actual coordinate Value compares processing, and to resolve the correction amount for obtaining surveying area's movement station, this correction amount is issued mobile terminal, correct it is mobile eventually The measured value at end is to obtain more accurately measured value.Differential technique further includes single poor method, double difference method, three poor methods, is sent out according to base station The information sent can be divided into differential position, pseudo range difference, carrier phase difference etc. again, and the purpose of these methods is provided to eliminate Positioning accuracy improves in first part and second part error in three parts error described previously.

In addition to GNSS system, various countries further developed assisted location service system A-GPS, pseudolite positioning, cellular network It positions (LBS, Location Based Service).Since indoor positioning cannot directly use satellite-signal, each enterprise is to tool Have the Innovation Input of positioning system bigger, have developed can be used for meridian tyre UWB positioning, infrared ray (IR) positioning, The methods of Bluetooth positioning, RFID positioning, ZigBee positioning, WiFi positioning, ultrasonic wave positioning.These methods respectively have excellent lack Point:

UWB has many good qualities in construction monitoring field: 1) .UWB skill wood strong antijamming capability, indoors, outdoor and wall Positioning near body all becomes practical；2) when there are four or more different height receiver when available three The receiver quantity of the accurate positioning of dimension, different height is more, and positioning accuracy is higher；3) .UWB technical data transmission rate is high, positioning Delay time much smaller than other indoor positioning technologies such as bluetooth positioning, WiFi positioning.

The shortcomings that UWB is: 1) needs perfect positioning network, and 3 have been required on any one anchor point The support of locating base station, if the quantity of base station reduces the precision that can greatly influence positioning；2) cannot block radio hair The barrier penetrated；3) basis of .UWB positioning is that base station needs to synchronize, even if slight network is asynchronous to also result in positioning accurate There is bigger deviation in degree.

Infrared technology indoor positioning has relatively high indoor position accuracy.But since light cannot pass through barrier Hinder object, so that infrared-ray is only capable of line-of-sight propagation, is easy to be interfered by other light, and the transmission range of infrared ray is shorter, makes The poor effect of its indoor positioning.

Bluetooth positioning is mainly used in small range positioning, such as: single layer hall or warehouse.It is moved for being integrated with Bluetooth function Dynamic terminal device, as long as the Bluetooth function of equipment is opened, bluetooth indoor locating system can carry out position judgement to it.No It crosses, for complicated space environment, the stability of bluetooth positioning system is slightly worse, is interfered by noise signal big.

RFID location technology can obtain the information of centimeter-level positioning precision in several milliseconds, and transmission range is big, cost Lower, equipment is relatively stable.The shortcomings that RFID is to reach same required precision if necessary, for UWB positioning, RFID Base station or reader deployment are relative complex, and quantity is more.

The advantage of ZigBee location technology is, low in energy consumption, cost is relatively low, be delayed short, high capacity and high safety, transmission distance From longer；It can support mesh topology, tree topology and stelliform connection topology configuration, networking flexibility is, it can be achieved that multi-hop transmission；The disadvantage is that Transmission rate is low, and positioning accuracy is more demanding to algorithm.

Ultrasonic wave positioning mainly uses reflective telemetry, and whole positioning accuracy is higher, and structure is simple, but ultrasonic wave is by more Diameter effect and non-line-of-sight propagation influence are very big, and ultrasonic frequency is influenced by Doppler effect and temperature, while being also required to a large amount of Underlying hardware facility, higher cost.

Meridian tyre method can provide high-precision positioning, than the side such as UWB, ZigBee, IR, RFID as previously described Method can provide the positioning accuracy of Centimeter Level, but coverage area is suitable for small range industry field generally in 1~100 meter of range Scape is not suitable for large area and uses and promote.

Mainstream WiFi positioning at present uses base station side signal strength RSSI (Received Signal Strength Indicator) positioning principle, thus precision compare it is lower.In the case where indoors, mobile phone can search many base stations WiFi SSID information, all WiFi terminals have the frame for issuing a kind of Probe Request before connecting the base station WiFi, time All channels in space are gone through, the base station WiFi is waited to return to Probe Response frame.In this interactive process, terminal can be in the message The MAC Address of itself is broadcasted, the base station WiFi can receive the message package of carrying mobile phone MAC Address and signal strength or weakness, WiFi base It stands and obtains the signal strength indication of mobile phone side completely, so as to be positioned using modes such as RSSI；Mobile phone side signal strength Rx (Received power) positioning is identical as base station side signal strength RSSI positioning principle, and mobile phone equally receives the survey of the base station WiFi The message package for carrying WiFi base station MAC address and signal strength or weakness, realizes positioning using modes such as RSSI.

What WiFi localization method carried out location Calculation is usually the engine of positioning on base station or subsequent location-server, Finally obtain opposite position coordinates.Simplest mode is exactly directly using the location information of the base station WiFi as mobile phone terminal Location information, the precision of position coordinates is within the signal cover of the base station WiFi.If several base stations can collect simultaneously To the finger print information of collection, can carry out it is some relative position is calculated according to the weighting algorithm of RSSI field strength, but due to nothing Spatially field strength is continuous fluctuating change to the propagation model of line signal, because WiFi positioning accuracy depends primarily on WiFi base The density stood, the leeway that can optimize on location algorithm are very small.

The major defect of WiFi positioning is exactly that precision is very low, without directionality.General precision is exactly mobile phone at 5 meters or so To the average distance of the base station WiFi.Lacking direction property is to be difficult to judge a use because WiFi is typically all omnidirectional antenna If family against wall be in this room or another room.So WiFi positioning has been not used in accurate positioning in real time and has needed In the environment asked.Secondly, WiFi positioning is bigger to the workload of situational map, WiFi positioning is to obtain relative coordinate, is exactly The opposite coordinate with the base station WiFi of mobile phone, the base station WiFi require to map after changing and are modified.Again, WiFi positioning is scarce Falling into is the base station WiFi unstable quality, and the quality of positioning is caused to be unable to get effective guarantee.

The advantage of WiFi positioning is mainly that the deployment of WiFi is extensive, currently as most important wireless transmission means, WiFi Maximum deployment amount is suffered from various indoor scenarios, therefore WiFi is ubiquitous, the occasion not high to required precision, WiFi's Data transmission network can be by assuming that WiFi positioning function be opened in engine of positioning service after building.WiFi positioning Second advantage be it is low in cost, the chip module price in 2018 of WiFi has dropped to 10 yuan or so, the valence of the base station WiFi The function that lattice are all within hundred yuan, and can be transmitted and be positioned with data, so can satisfy the need that low cost extends on a large scale It wants.The third advantage of WiFi positioning is available with mobile phone terminal, and the cost of terminal disposition is omitted.Therefore, WiFi is positioned It is that cost is the cheapest in several indoor positioning schemes described previously.9.0 version of Android has supported that WiFi is fixed at present Position, but the position data of WiFi positioning comes from unknown website, the number of the base station WiFi while user opens WiFi auxiliary positioning According to being acquired by unknown website by mobile terminal again, which has been directed to profound safety problem.

In conclusion

GNSS signal is unavailable indoors, by the way of network and base station forwarding GNSS signal, since there are networks to tremble Dynamic and congestion causes network latency uncontrollable, same unavailable；In conjunction with satellite positioning tech and base station assistant positioning system A-GPS technology, it is excessively high for the dependence of GNSS, when there is no satellite-signal, A-GPS actually has degenerated as base station location (LBS positioning), positioning accuracy, which is far from satisfying, is normally applied requirement；Existing meridian tyre technology, mostly to infrastructure New demand is proposed, and effect is single, networking cost is excessively high, therefore feasibility is poor.

But demand of the people to indoor positioning is more and more, it is desirable that higher and higher.The location-based service of high quality is provided, Must have following necessary condition:

1) provides high-precision highly reliable indoor positioning signal；

2) is easy to dispose, and low networking cost is capable of providing trans-regional seamless service；

3) is easily operated and uses, and does not increase client's burden；

4) makes full use of social public resource based on open public service, will not independent of monopolization resource Throat is nipped by monopolization resource vested interests group to strangle；

5) has high quality high-precision indoor map and location information service.

We have developed a kind of every defects for having advantage described above and the prior art being overcome above-mentioned thus It can be used for indoor localization method and system, serve demand of the people to high precision position service.

Summary of the invention

Problem to be solved by this invention is that wide-area location technology is difficult to realize indoor high accuracy positioning, meridian tyre technology It is difficult to the problem of seamless service of wide area is provided.The invention discloses one kind can be used for indoor positioning to solve the above-mentioned problems Method and system meet the needs of wide area, high-precision indoor positioning.

One kind can be used for indoor localization method, be characterized in that this method using mobile terminal, the base station LBS, the base station WPS and Location service center, use four messages: Location Request message, positioning message, the positioning message palindrome and difference message use The indirect method of measurement, including two steps, first step calibration process utilize the coordinate of the outdoor base station mobile terminal location indirect determination LBS； Second step position fixing process utilizes the coordinate of known LBS base station coordinates measurement indoor objects " mobile terminal ".

Calibration process includes that mobile terminal reception satellite positioning signal positions itself, can there is differential signal to assist To carry out enabling Differential positioning under conditions of high accuracy positioning, precise positioning itself is carried out, mobile terminal utilizes the clock of GNSS Calibrate the clock of itself.

Location Request message merges with the positioning message palindrome in calibration process, comprising steps of

S102-302: mobile terminal selects the base station LBS, issues Location Request message and the positioning message palindrome to the base station LBS；

The base station S103-304:LBS sends Location Request message and positioning message to location service center；

S104-306: judging whether mobile terminal has been registered, registered then to execute to step S109-311, it is unregistered then It executes to step S105-309；

S105-309: location service center is authenticated and is registered；

S106-307: judge whether to succeed in registration；

S107-308: registration failure is abandoned；

S108-305: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S109-311: location service center according to mobile terminal positioning the message palindrome and mobile terminal GNSS coordinate, Calculate LBS base station coordinates；

S110-312: location service center sends positioning message to the base station LBS；

The base station S111-310:LBS receives the positioning message of location service center, is transmitted to mobile terminal；

S112-303: mobile terminal receives positioning message and difference message, and optimization local coordinate system calculates；

S113: step S102-302, the coordinate information of continuous updating LBS base station coordinates are repeated.

Location Request message and positioning message nonjoinder in calibration process, comprising steps of S102-302: mobile terminal selection The base station LBS issues Location Request message or the positioning message palindrome to the base station LBS；

The base station S103-304:LBS sends Location Request message or positioning message to location service center；

S104-306: location service center judgement is Location Request message or the positioning message palindrome；

S105-309: if it is Location Request message, location service center is authenticated and is registered；

S106-307: judge whether to succeed in registration；

S107-308: registration failure is abandoned；

S108-305: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S109-311: if it is the positioning message palindrome, location service center according to the positioning message palindrome of mobile terminal and The GNSS coordinate of mobile terminal calculates LBS base station coordinates；

S110-312: location service center sends positioning message to the base station LBS；

The base station S111-310:LBS receives the positioning message of location service center, is transmitted to mobile terminal；

S112-303: mobile terminal receives positioning message and difference message, and optimization local coordinate system calculates；

S113: step S102-302, the coordinate information of continuous updating LBS base station coordinates are repeated.

Location Request message and positioning message palindrome nonjoinder in position fixing process, comprising steps of

1. mobile terminal issues Location Request message, the base station LBS is arrived；

The base station 2.LBS forwards Location Request message to location service center；

3.1 location service centers authenticate mobile terminal 1101, failed authentication refusal service；

3.2 mobile terminals fail in authentication process, cannot use the service of location service center；

4. mobile terminal authentication success, location service center provide service, positioning message is sent to the base station LBS；

The forwarding of 5.1 base stations LBS positions message to mobile terminal；

The forwarding of 5.2 base stations LBS positions message to the base station WPS；

The 6.1 mobile terminal restoring to normal position message palindrome are to the base station LBS；

6.2 base station the WPS restoring to normal position message palindrome are to the base station LBS；

The base station 7.LBS forward the base station WPS the positioning message palindrome and mobile terminal the positioning message palindrome to positioning service Center；

8. location service center sends difference message to the base station LBS；

The base station 9.LBS sends difference message to mobile terminal.

Position fixing process comprising steps of

S201-401: mobile terminal, which enters the room, cannot receive satellite positioning signal, start indoor mode；

S202-402: mobile terminal selects the base station LBS to issue Location Request message or positioning message time to the base station LBS Text；

The base station S203-403:LBS sends Location Request message or the positioning message palindrome to location service center；

S204-410: location service center judgement is Location Request message or the positioning message palindrome；

S205-407: if it is Location Request message, location service center is authenticated and is registered；

S206-408: judge whether to succeed in registration；

S207-409: registration failure is abandoned；

S208-406: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S209-414: if it is the positioning message palindrome, the positioning message palindrome of the location service center according to mobile terminal, meter Calculate mobile terminal coordinate；

S210-415: location service center sends positioning message and difference message to the base station LBS；

The base station S211-413:LBS receives the positioning message and difference message of location service center, be transmitted to mobile terminal and The base station WPS；

The base station S212-412:WPS receives positioning message, records the time of receipt (T of R), sends the positioning message palindrome to the base station LBS； WPS receives difference message, abandons.

The base station S213-411:LBS forwards the positioning message palindrome of the base station WPS sending to location service center；

S214-404: mobile terminal receives positioning message and difference message；

S214-402: mobile terminal is according to difference as adjustment local map coordinate；

S215-403: mobile terminal receives positioning message, records the time of receipt (T of R), issues the positioning message palindrome to the base station LBS,

S216: step S203-403, continuous updating mobile terminal coordinate are repeated.

According to another embodiment, the present invention provides one kind can be used for indoor localization method, is characterized in that this method is adopted With the indirect method of measurement, including two stages: the 1st stage, outdoor dimensioning phase, the stage include S201, are obtained using GNSS signal Take mobile terminal coordinate, S202, in the outdoor coordinate for utilizing the base station mobile terminal coordinate measuring LBS, S203, repeat S201 and S202 more times；2nd stage, indoor positioning stage, including S204 utilize mobile terminal in the LBS base station coordinates measuring cell of acquisition Coordinate.

Difference information is generated using " time difference " localization method, the position coordinates with the base station LBS should be used in the process The substantially stationary constant base station WPS.

In the 2nd stage, location service center issues the positioning message MSG1 with timestamp at the T0 moment, by several Internet router reaches the base station LBS at the T1 moment, and is forwarded by the base station LBS, and mobile terminal receives MSG1, WPS at the T3 moment Base station receives the copy MSG1 of positioning message MSG1 at the T2 moment^*, it is possible thereby to be calculated mobile terminal to the base station LBS puppet Away from Δ t13, value range perseverance is more than or equal to 0, and being further calculated using the value can be obtained mobile terminal coordinate.

Further include the steps that the base station LBS on mobile scanning terminal periphery before the 1st stage, specifically: mobile terminal is swept The step of retouching the base station LBS on periphery forms a list, and mobile terminal selects a base station to establish connection, passes through after successful connection The base station LBS sends Location Request message to location service center, and location service center is carried out through starting service after authentication Process issues positioning message and difference message to the base station LBS, and mobile terminal and the base station LBS carry out one or many message friendships Mutually, it indicates to be successfully established connection, mobile terminal selects next base station LBS to repeat the above steps later, to realize precise positioning.

The accurate coordinate of the base station LBS in order to obtain, with four big GNSS systems in orbit at present: GPS, BDS, Coordinate calculating is carried out based on GLONASS, GALILEO, is obtained the time seed of a satellite system first, is then defended with other The clock signal of star system is calibrated to obtain clock signal, is recycled the clock signal calculating position coordinate, is finally repeated several It is secondary with clock jitter mean value and the equal value calibration mobile terminal coordinate of position deviation.

The LBS that " one kind can be used for indoor positioning system and localization method " disclosed by the invention and current operator use Location technology and based on RSSI/Rx location technology there are dramatically different,

1) coordinate of the .LBS location technology using base station range as mobile terminal, precision is at 100 meters or so, the present invention Using measurement pseudorange method, positioning accuracy is theoretically only related with the precision that mobile terminal and WPS base station time measure；

2) there are non-linear relations for .RSSI/Rx method signal intensity attenuation and distance, and signal is strong after encountering the barrier such as wall Degree decaying is unpredictable, while non-omnidirectional antenna, and direction has directionality, will also result in signal strength with the angle of antenna and does not advise Then decay, the data that RSSI/Rx method generates have uncertainty, and the present invention is linear with the time using the distance of radio wave propagation The principle of relationship, the method GPS/BDS principle for measuring pseudorange is identical, and indoor environment is that can neglect to the time-lag action of program request signal Slightly；

3) electromagnetic environment is more complicated under indoor environment, equally has multi-path problem, reflection diffraction interference problem, still The present invention relies on GPRS, 2/3/4/5G data communication technology, and this problem is solved and is widely applied by device manufacturer.

The difference of " one kind can be used for indoor positioning system and localization method " and GNSS positioning method disclosed by the invention Point is:

1) positioning signal source is different, and GNSS sends positioning message and clock signal, the dedicated positioning base of the present invention using satellite The base station WPS major deployments stand indoors, the base station WPS, mobile terminal cannot use GNSS positioning signal, and the base station LBS uses operation Quotient's communication base station sends positioning message and receives the positioning message palindrome, and the base station LBS is equipped with positioning systems (main functions such as GPS/BDS It is time service, global synchronized timing system), but service is not provided to third party.Therefore positioning signal source is different, and clock synchronization mode is not Together, determine that base station location sits calibration method difference, the mode for generating differential data is different, and the differential signal of generation is also different, makes It is also different with the mode of differential data.

2) positions the difference of message, and traditional GNSS navigation message used time is long, for example GPS receiver one is completely led Avionics text need 750 seconds, in contrast the present invention positioning message sending time want it is short very much, location service center one of the invention As once issue one group and be no less than 3 positioning messages, for example send message using the base station TD-LTE, it should be compressed in a subframe It is interior, i.e. it is sent completely within 1ms.

3) difference message is different, and the DIFFERENTIAL PROTOCOL message that conventional differential base station is sent is the correction amount of GNSS signal, this hair It is the coordinate modification ginseng being calculated by location service center that bright location service center, which issues the difference message forwarded by the base station LBS, Number.

4) difference at difference station and differential system, conventional satellite position differential positioning reference station there are local base station and Wide Area Reference station, differential reference station receive GNSS signal, calculate difference information and broadcast to periphery, GNSS differential reference station is special With base station, base station of the present invention must be local base station, and be that the base station LBS, this hair of data access service are provided by operator The differential position system that the base station dedicated locating base station WPS of bright offer and location service center are constituted, the two have the difference of essence.

5) difference of .GNSS open loop information transmitting and closed-loop information system of the present invention, conventional differential base station and mobile terminal It is not contacted with position location satellite, information is open loop, and the design of GNSS system determines that the information of GNSS must be open loop； Differential system of the invention constitutes complete data closed loop by mobile terminal, the base station LBS, the base station WPS and location service center, closes The advantage of ring is there is high information security characteristic, so that user's flow process can be monitored completely, system is closed at one In network environment, user must could be used by registering and authenticating, and the behavior of user is restricted, and avoid high-precision fixed plane The security risk faced.

6) location frequency is fixed and location frequency can be set, this can bring a great difference.GNSS system such as GPS system System and BDS system broadcast a positioning signal every second, generate the period of differential data and the frequency of satellite broadcasting location data Rate is identical with time interval, and the present invention sends positioning message, and the frequency for generating difference message can be set as needed, for example, Short distance in order to realize high accuracy positioning still use ten positioning messages of transmission per second.

7) signal sends and receives standard difference, GPS, BDS, GALILEO system using CDMA mode, For GLONASS using FDMA mode (the FDMA mode of GLONASS is to CDMA schema evolution), GNSS system positioning is all It is that stringent synchronization issues that satellite, which sends positioning signal, calculates pseudorange according to the time difference that mobile terminal receives positioning message, The present invention neither CDMA is also not FDMA, and the time that the base station LBS sends message does not need strict time synchronization, in fact due to Operator base station uses time-division system, and one kind disclosed by the invention can be used for indoor positioning system and localization method, be based on The service that the base station LBS of operator provides is impossible strict time synchronization.

8) realizes that the mode of positioning is different.GNSS system issues positioning message by satellite, and mobile terminal location chip is full-time Sky tracking satellite in orbit, distinguishes satellite according to coding mode satellite number and PRN, the present invention is by mobile terminal active scan periphery The base station LBS distinguishes the base station of the service of offer according to the SSID or MAC of the base station LAC, CID and WiFi of operator, in-orbit at present Satellite approximate number the Big Dipper 41 of operation, 32, GPS star, 30, GLONASS star, 30, GAOLEO star, total quantity 150 The quantity of left and right, the base station LBS and the base station WPS is more much bigger than number of satellite, and there are many base stations LBS in each of each community building In the presence of.

9) process that location Calculation is realized is different, and in GNSS position fixing process, a mobile terminal at least needs to receive 4 The signal of compatible satellite can just position, many-one mode, and the positioning message that a base station LBS issues in the present invention is moved end It holds and is at least received by a base station dedicated locating base station WPS, be one-to-many manner.GNSS positions coordinate and calculates in mobile terminal It completes, the present invention positions coordinate and calculates in location service center completion.

10) calculate pseudorange mode it is different, GNSS must all satellite strict time synchronizations send positioning signals, clock Error be directly reflected into calculate pseudorange error.The present invention is complete by the transmission time error of location service center to the base station LBS Portion is canceled out, and error component is only related with the clock of mobile terminal and the base station WPS, i.e. the time of mobile terminal and the base station WPS Error determines positioning accuracy of the invention, more many than what the error component of GNSS system was reduced.

Detailed description of the invention

This specification includes attached drawing clearly to illustrate the preferred embodiment of the present invention, in figure:

Fig. 1 is the schematic diagram for illustrating the system according to an embodiment of the present invention that can be used for indoor positioning system and constituting.

Fig. 2 is the signal for illustrating the positioning stage according to an embodiment of the present invention that can be used for indoor positioning system and dividing Figure.

Fig. 3 is to illustrate the first stage calibration process process according to an embodiment of the present invention that can be used for indoor positioning system Schematic diagram.

Fig. 4 is to illustrate the second stage position fixing process process according to an embodiment of the present invention that can be used for indoor positioning system Schematic diagram.

Fig. 5 is the Difference Calculation method of the calculating pseudorange according to an embodiment of the present invention that can be used in indoor localization method Schematic diagram.

Fig. 6 is the mobile terminal to search periphery LBS base according to an embodiment of the present invention that can be used in indoor localization method The process schematic stood.

Fig. 7 is that the mobile terminal according to an embodiment of the present invention that can be used in indoor localization method is counted by GNSS optimization Calculate the flow chart of mobile terminal coordinate and time seed.

Fig. 8 is the signal of the composition of the mobile terminal according to an embodiment of the present invention that can be used in indoor localization method Figure.

Fig. 9 is the schematic diagram of the composition according to an embodiment of the present invention that can be used for the base station WPS in indoor localization method.

Figure 10 is showing for the location service center composition according to an embodiment of the present invention that can be used in indoor localization method It is intended to.

Figure 11 be the message according to an embodiment of the present invention that can be used in indoor localization method four constituting portion point it Between transmittance process interaction figure.

The preferred embodiment of the present invention is elaborated below in conjunction with attached drawing.

Specific embodiment

A specific embodiment of the invention provided below, it should be noted that specific embodiment described in this specification is only It is intended to illustrate purport of the invention, does not constitute a limitation on the scope of protection of the present invention.

One kind is disclosed in one embodiment of the present invention can be used for indoor positioning system, mainly by following four part structure At, mobile terminal 101 as shown in Figure 1:, the base station LBS 102, the base station WPS 103, location service center 104, mobile terminal 101 with It can be in communication with each other between the base station LBS 102, can be in communication with each other between the base station LBS 102 and location service center 104, the base station WPS 103 It can be in communication with each other between the base station LBS 102.Wherein mobile terminal 101 is user's handheld terminal, and mobile terminal 101 passes through LBS Base station 102 is connect with location service center 104, and the base station WPS 103 is connect by the base station LBS 102 with location service center 104.

Mobile terminal 101 sends Location Request message, the positioning message palindrome to the base station LBS 102, receives by the base station LBS 102 Positioning message, the difference message of forwarding can realize positioning and clock school using GNSS signal under 101 outdoor conditions of mobile terminal It is quasi-.

The effect of the base station LBS 102 is the Location Request message of transmitting mobile terminal 101, the positioning message palindrome to positioning clothes Business center 104 forwards positioning message, the difference message to mobile terminal 101 of location service center 104；The base station LBS 102 forwards Message is positioned to the base station WPS 103, the base station LBS 102 forwards the positioning message palindrome of the base station WPS to location service center 104；LBS Base station 102 includes providing major operator that service accesses for mobile terminal 101 to provide the base station of data service, as operator transports The 2/3/4/5G business base station of battalion, the base station WiFi, the base station WiMAXs etc..

The base station WPS 103 receives the positioning message that location service center 104 issues, and issues and positions to location service center 104 The message palindrome.

The base station WPS 103 (WPS, Wide band Positioning Station) is the dedicated wideband that the present invention develops Positioning service base station.The base station WPS can be designed using the method for software definition realizes have than wider received spectrum, can Receive the data message of including but not limited to all signal frequency ranges of equipment such as GPRS, 2-5G, WiMAXs, Zigbee.The base station WPS 103 have synchronised clock, receive positioning message, receive positioning message time by positioning message palindrome transmission, receive and broadcast The function of ranging message.

The effect of location service center 104 includes storage 102 position coordinates of the base station LBS, provides positioning service and position is sat Mark calculates service.Storage 102 coordinate of the base station LBS is realized by database module；Location service center 104 provides positioning service The Location Request message for responding mobile terminal 101 provides positioning message and difference message to mobile terminal 101；Location service center 104 offer position coordinates calculate service and are realized by position coordinates computing module, obtain the base station LBS by calculating the positioning message palindrome Coordinate and mobile terminal 101 differential data.

One kind disclosed by the invention can be used for indoor positioning system and localization method, define and used Location Request report Text, positioning message, positioning 4 kinds of the message palindrome, difference message messages.

Location Request message is registered and is authenticated to location service center for mobile terminal, connection established, in positioning service The heart is established as the process of the mobile terminal service.

Message is positioned, for measuring mobile terminal to the base station LBS pseudorange, positioning message is issued by location service center, LBS Base station forwarding, the base station WPS and mobile terminal receive positioning message, and sending is fixed after the base station WPS and mobile terminal receive positioning message The position message palindrome.

The message palindrome is positioned, the base station WPS and mobile terminal issue the positioning message palindrome after receiving positioning message, by LBS base Station is forwarded to location service center.The time that the base station WPS and mobile terminal receive positioning message, there are the time difference of very little, WPS Base station and mobile terminal records receive the time utilization positioning message palindrome of message and are forwarded in positioning service by the base station LBS The heart.Location service center completes computation of pseudoranges and location Calculation according to the time of positioning message palindrome record.

Difference message, message describe mobile terminal locations coordinate data deviation, for correcting mobile terminal coordinate, difference report Text is issued by location service center, is forwarded to mobile terminal by the base station LBS.In embodiment, difference message can be merged into fixed Position message.

It is caused to eliminate by satellite clock error, ephemeris error, ionospheric error, tropospheric error and propagation delay error Mobile terminal positioning accuracy error, traditional GPS difference by precise positioning difference station generate difference information, issue the movement of client Device.Object space of the invention be it is indoor, mobile terminal cannot receive GNSS signal indoors, cannot use similar GPS or The difference information correction of deviation of BDS difference station.

It is described below and can be used for mobile terminal 101 included by indoor positioning system, the base station LBS according to the present invention 102, WPS base stations 103, the technical detail of location service center 104.

Mobile terminal 101:

That is user's handheld terminal generally refers to the smart phone that user uses, is also possible to dedicated equipment, such as this public affairs The dedicated chamber mapping device and moving coordinate calibrator (-ter) unit of department's customization research and development.

Mobile terminal has the ability for receiving mobile Internet data message and sending datagram.

Mobile terminal has the ability for receiving satellite positioning signal, and it is fixed to be realized using GNSS signal under outdoor conditions Position and clock alignment.Mobile terminal is connect by the base station LBS with location service center.

One kind disclosed in the above embodiment of the present invention can be used for indoor positioning system and localization method, and mobile terminal has " calibration mode " (operating mode 1), " station-keeping mode " (operating mode 2) two kinds of operating modes.

Operating mode 1, calibration mode (or outdoor mode).Mobile terminal can obtain movement using GNSS signal in outdoor The coordinate of terminal and itself clock of correction further utilize the GNSS coordinate and clock measurement LBS base station coordinates and synchronous WBS base The clock stood.

As shown in figure 3, the coordinate of the measurement base station LBS, needs mobile terminal to start GNSS function in an outdoor environment, obtain The GNSS coordinate of mobile terminal is sent to the base station LBS by the positioning message palindrome and is forwarded in positioning service by the base station LBS The heart, location service center calculate the coordinate of the base station LBS according to the positioning message palindrome.

Operating mode 2, station-keeping mode (or indoor mode) are realized to mobile terminal certainly using LBS base station coordinates indoors The positioning of body.As shown in figure 4, mobile terminal succeeds in registration in location service center, mobile terminal and location service center can Carry out message interaction.Mobile terminal starts operating mode 2 first, and the search selection base station LBS issues positioning by the base station LBS and asks Message is sought, the base station LBS is forwarded to location service center；Then start service processes (process after location service center verifying authorization Or thread, the scope of the invention are interior with " process " description), positioning message is issued, the forwarding of the base station LBS positions message to mobile terminal With the base station WPS；Subsequently the time for receiving positioning message is sent back to positioning with the positioning message palindrome by the base station WPS and mobile terminal Service centre；Last location service center calculates the position coordinates of mobile terminal, sends difference message by the base station LBS and is transmitted to shifting Dynamic terminal, mobile terminal correct the position coordinates of mobile terminal according to difference message.

Serving BS:

Major operator including providing service access for mobile terminal provides the base station LBS of data service and dedicated fixed Position service the base station base station WPS, can also using have cooperative relationship the base station LoRa that can be realized data communication, The base station Bluetooth, the base station UWB, the base station ZigBee are as the base station LBS and/or the base station WPS.Serving BS passes through network connection Mobile terminal and location service center.

The base station the LBS base station 102:LBS is that mainly operator provides the base station of data communication access service and has cooperation to close The other types base station of system, such as the base station LoRa.

Mobile terminal works in operating mode 1, and the base station LBS receives the Location Request message of mobile terminal, positioning message The palindrome, and it is forwarded to location service center；Location service center responds the Location Request message of mobile terminal and positioning message returns Text issues positioning message and difference message, is forwarded to mobile terminal via the base station LBS.

Mobile terminal works in operating mode 2, and the base station LBS receives the Location Request message of mobile terminal, positioning message The palindrome, and it is forwarded to location service center；The base station WPS receives the positioning message transmission positioning message palindrome and is forwarded by the base station LBS To location service center, location service center responds the Location Request message of mobile terminal and the positioning message palindrome issues positioning report Text and difference message forward big mobile terminal via the base station LBS.

The base station WPS 103:

The target of the base station WPS is the time delay of detection positioning packet network transmission, eliminates net caused by network shake and obstruction Network transmission time is uncertain.The base station WPS can be designed using the method for software definition and be realized, have than wider reception frequency Spectrum, can receive the data message of including but not limited to all signal frequency ranges of the equipment such as GPRS, 2-5G, WiMAXs, Zigbee. The base station WPS have synchronised clock, receive positioning message, by positioning the message palindrome transmission receive positioning message time, receive and Broadcast the function of ranging message.There is the other types base station of cooperative relationship to can also be used as the base station WPS, such as the base station LoRa etc..

The base station WPS receives the positioning message of location service center, at the time of recording message reception, is returned with positioning message Text is sent to location service center, the pseudorange for being used to calculate mobile terminal to the base station LBS by location service center.

Location service center 104:

The main function of location service center is: responding the service request of mobile terminal, sends positioning message and/or difference Message is divided to be forwarded to mobile terminal and the base station WPS to the base station LBS and by the base station LBS；It is replied according to mobile terminal and the base station WPS Message palindrome mobile terminal is positioned to the pseudorange of the base station LBS, further calculates the coordinate of LBS base station coordinates and mobile terminal.

Location service center is responsible for storing the position coordinates of the base station LBS, and is continued to optimize by historical data and calculate LBS seat Mark data.

It hereinafter will further specifically describe mobile terminal 101 in the preferred embodiment for the present invention, the base station LBS 102, The base station WPS 103, the further details of location service center 104.

The composition of mobile terminal

Mobile terminal is made of hardware described below and/or software section, as shown in Figure 8.

1. satellite signal receiving hardware components 801

Chip is received by satellite positioning signal to constitute with satellite signal receiving antenna, can receive GNSS (global positioning satellite System) positioning signal, electromagnetic wave is converted into computable number word signal.

It may include multiple satellite positioning chips, such as: the chip of BDS, GPS, GLONASS, GALILEO system.By core The standard satellite positioning chip and antenna that piece supplier provides, provide standard service interface.

2. satellite message receiving module 805

Major mobile terminal manufacturer built-in positioning chip of GNSS system such as BDS in its mobile terminal product, Constitute the basic platform of GNSS location hardware.Under normal circumstances, software can directly using positioning chip provide position coordinates, Speed and altitude info ination.

The initial data for needing to obtain using above-mentioned module 801 in application of the invention, such as the location protocol that GPS is used NMEA0183 agreement original message, satellite message receiving module resolve module 811 by message after receiving and resolve location information again.

3. satellite clock calibration module 806

The signal that satellite is broadcast has timing function, is corrected by satellite clock calibration module to the satellite-signal received A more accurately time seed can be obtained in local clock.

The present invention is calibrated in satellite clock calibration module 806 by GNSS system multisystem, and high quality can be obtained Time seed, clock correcting method and process, as shown in Figure 7.

4.WiFi signal transmitting and receiving hardware components 802

WiFi chip and WiFi chip antenna constitute WiFi signal and receive and dispatch hardware components 802.

In mobile terminal almost without exception used WiFi chip, asked in the present invention using WiFi chip transmitting-receiving positioning Ask message, positioning message, positioning the message palindrome, difference message.

The transmission power of WiFi chip is defined and is set with control module 804 by channel selection.

5. telecom communication part 803

GPRS, 2G/3G/4G/5G antenna component constitute telecom communication part 803.Current mobile terminal is substantially all GPRS, 2G/3G/4G business are opened, 5G business has begun pilot in the world.The present invention is based on GPRS's and 2-5G Wireless Interne data business development, receives and dispatches message on the basis of mobile Internet data business, and message includes Location Request Message, positioning message, positioning the message palindrome, difference message.

At the same time with space in, GPRS, 2G/3G/4G of each operator and the 5G data service base station in future It can realize the communication with distal end.

By available teledata business described above, channel selection and control module 804 are defined and set and Selection uses operator and business model.

6. channel selection and control module 804

The function of channel selection and control module 804 is to select a base station LBS, in the preferred embodiment of the base station LBS, can be passed through Process as shown in FIG. 6 is realized.

Mobile terminal to search periphery can use the base station LBS, mark available base stations according to preference policy and select available base station, It realizes and location service center message interaction.

7. message receiving module 807

Message receiving module 807 is one and waits for process, receives the message from the base station LBS, and message is given to message Preferred module 809.

8. message sending module 808

The selection of 808 connecting channel of message sending module and control module 804, establish with remote server and are connected to the network, shape At data communication link.Realize mobile terminal to the base station LBS Location Request message, positioning the message palindrome transmission.

9. message preferred module 809

The message from the base station GNSS and/or LBS received is carried out preferably and is cleaned by message preferred module 809, is protected Stay the available message of high quality, 1) it is sent to message and resolves module 811 and carry out position coordinates resolving, 2) issue difference block 812 carry out the calculating of difference coordinate.

10. transmission control module 810

Transmission control module loads the business rule and strategy of mobile terminal, e.g., the mobile terminal LBS base station search time Interval etc..

Transmission control module 810 calls Location Request message generation module 814 to generate Location Request message, is given to message hair Module 808 is sent, calls positioning message palindrome generation module 813 to generate the positioning message palindrome, is given to message sending module 808.It is real It applies in example, the Location Request message of mobile terminal can merge with the positioning message palindrome.

11. message resolves module 811

When operating mode 1, message resolve module 811 realize to GNSS satellite positioning message, the base station LBS forwarding by positioning The differential data that the positioning message of service centre's sending, difference message, difference block 812 generate is resolved, and message resolves mould Root tuber calculates the coordinate of the base station LBS according to the positioning message palindrome of mobile terminal and the GNSS coordinate of mobile terminal.

When operating mode 2, message, which resolves module 811 and realizes, to be determined by what location service center issued what the base station LBS forwarded The differential data that position message, difference message, difference block 812 generate is resolved, and the coordinate of mobile terminal is calculated.

Satellite positioning message is to receive satellite positioning message initial data such as NMEA0183 by satellite message receiving module 805 Agreement original message.The base station LBS forwarding positioning message and difference message, are received by message receiving module 807, preferred by message Preferably, difference block 812 and message resolve module 811 and complete coordinate calculating module 809.Message and difference are positioned in specific embodiment Divide message that can be merged into a message.

12. difference block 812

The present invention serves indoor mobile terminal, and interior cannot receive GNSS signal, and it is poor with GPS or BDS to use The similar difference information of substation.Of the invention uses innovation " time difference ", completely eliminates network jitter and obstruction is made At clocking error.Realization process is as shown in Figure 5:

The positioning message that location service center 505 was issued in T0 seconds is reached by complicated internet 504 at the T1 moment The base station LBS 503, the base station LBS 503 forward the positioning message, and mobile terminal 501 is received in T3 moment, the base station WPS 502 at the T2 moment The positioning message is arrived." puppet " distance of the base station WPS 502 to the base station LBS 503 is constant, and the location service center 505 that is easy to get arrives The propagation time of the base station LBS further calculates to obtain the pseudorange that mobile terminal 501 arrives the base station LBS 503.

Pseudorange measurement accuracy of the present invention, it is only related with time resolution.

13. positioning message palindrome generation module 813

The effect of positioning message palindrome generation module 813 is calling clock after the positioning message for receiving location service center Calibration module 806, at the time of recording message and receive, i.e. T3 at the time of in Fig. 5, and the time is positioned to the shape of the message palindrome Formula is sent to location service center.

14. Location Request message generation module 814

After mobile terminal initialization, need to register to location service center first, it is fixed that mobile terminal is sent to the base station LBS Position request message, the base station LBS forwarding Location Request message to location service center, location service center are established as mobile terminal clothes The process of business.Location Request message realizes the process of service registration.

The message palindrome and Location Request message are positioned in embodiment can merge as a message.

(2) composition of serving BS

The base station LBS is constituted

The base station LBS is mainly that telecom operators' communication base station is public infrastructure, the part base station WiMAXs and WiFi base Standing is also the Working level wide bandwidth base station of operator deployment, and architecture of base station is provided by the design of equipment producer.The present invention is only used as one Available data transmission set uses.

The base station WPS is constituted

The dedicated locating base station " base station WPS " of the present invention is to have carried out special design customization based on WiFi locating base station, Structure can refer to Fig. 9.Hereafter the preferred embodiment of each section to the base station WPS is specifically described.

1. positioning message receiving module 901

The positioning message receiving module 901 of the base station WPS is one and waits for module, receives the positioning report issued by the base station LBS Text calls 904 acquisition time of clock alignment module, calls and gives positioning message palindrome generation module 903, generates positioning message and returns Text.

2. message sending module 902

The task of message sending module is will to position the message palindrome to issue the base station LBS, is transmitted to positioning service by the base station LBS Center.

3. positioning message palindrome module 903

Positioning message palindrome module 903 receives the positioning received positioning message of message receiving module 901, calls clock school Quasi-mode block 904 records accurate receiving time, generates the positioning message palindrome and is forwarded to location service center.

4. clock alignment module 904

It is calibrated by clock alignment 904 with mobile terminal clock.Mobile terminal is relatively accurate with WPS base station clock It is the basis of accurate positioning degree.

(3) location service center

The function of location service center is the Location Request message and the positioning message palindrome and WPS received by mobile terminal The positioning message palindrome of base station carries out authentication and service registration to mobile terminal, is built according to the Location Request message of mobile terminal The vertical service processes for serving mobile terminal calculate the positioning message palindrome of positioning the message palindrome and the base station WPS of mobile terminal, Obtain mobile terminal to the base station WPS pseudorange.

As shown in Figure 10, location service center includes message sending module 1001, message receiving module 1002, authentication module 1003, clock alignment module 1004, positioning service module 1005, position calculate service mould 1006, position message generation module 1007, difference message generation module 1008, Difference Calculation module 1009 and database module 1010.Referring to Fig.1 0 pair it is of the invention Each section of location service center is specifically described.

1. message sending module 1001

Location service center responds the Location Request of mobile terminal and the positioning message palindrome, positioning service module 1005 are called It positions message generation module 1007 and difference message generation module 1008 generates positioning message and difference message, sent by message Module 1001 sends positioning message and difference message to the base station LBS, forwards the positioning message and difference message by the base station LBS.

2. message receiving module 1002

Message receiving module 1002 receives the Location Request message of the base station LBS forwarding, calls 1003 pairs of movements of authentication module The access right of terminal is identified, and mobile terminal is by authentication, and positioning service module 1005, not over authentication, message is connect Receive the service request of module rejection mobile terminal.

Message receiving module 1002 receives the positioning message palindrome of the base station LBS forwarding, is transmitted to positioning service module 1005 Calculate the positioning message palindrome.

3. authentication module 1003

Message receiving module 1002 receives the Location Request message of the base station LBS forwarding, and authentication module 1003 is to mobile terminal Access right identified, authentication module 1003 inquire database module 1010, determine mobile terminal whether with access to The service, mobile terminal by identifying, issue a pass to mobile terminal by authentication module 1003.

4. clock alignment module 1004

It is derived from conclusion above, clock measurement accuracy of the position error only with the base station WPS and mobile terminal has It closes, there is no relationships with the time error of location service center.Clock alignment can be used as time calibration in network use herein.Clock school Quasi-mode block 1004 obtains high-precision time seed by external GNSS time dissemination system, positions message generation module 307 and difference Message generation module 308 needs the time seed as the T0 time in Fig. 5.

5. positioning service module 1005

Positioning service module 1005 is responsible for management service process or service thread.Location Request message simultaneously passes through authentication mould After block 1003 authenticates, positioning service module 1005 starts a service processes and provides service for mobile terminal.Positioning service module The service processes of 1005 startings call Difference Calculation module 1009 to calculate the positioning message palindrome and the base station WPS that mobile terminal issues The positioning message palindrome of sending obtains mobile terminal to the pseudorange of the base station LBS, and 1005 calling station of positioning service module, which calculates, to be taken Module 1006 of being engaged in calculates the position coordinates of mobile terminal.

Positioning service module 1005 at a time interval, such as 0.5 second, calls message sending module 1001 to send positioning Message group is transmitted to mobile terminal and the base station WPS to the base station LBS, by the base station LBS.

6. position calculates service module 1006

Already described above, coordinate of the invention, which calculates, is divided into two stages, first stage calculating LBS base station coordinates, and second A stage calculates the coordinate of mobile terminal according to the coordinate of the base station LBS.The effect that position calculates service module 1006 is to calculate LBS The coordinate of base station and mobile terminal.

1st stage calculated LBS base station coordinates.1st stage needed to determine LBS base station coordinates using mobile terminal, mobile whole End must can receive GNSS signal in outdoor.Process is as shown in Figure 3.

2nd stage calculated mobile terminal coordinate.Mobile terminal cannot utilize GNSS signal indoors, utilize known LBS The coordinate of base station calculates the coordinate of mobile terminal.Process is as shown in Figure 4.

7. positioning message generation module 1007

After mobile terminal location request message is authenticated by authentication module 1003, the starting response of positioning service module 1005 Location Request message.Positioning service module 1005 calls positioning message generation module 1007 to generate positioning message.

8. difference message generation module 308

Difference message is used for transmission the calibration deviation of position coordinates.Position calculates service module 1006 and Difference Calculation module 1009 are calculated the grid deviation of mobile terminal, are packaged into difference message by difference message generation module 1008, are sent to shifting Dynamic terminal, corrects the cartographic information of mobile terminal.

Difference message can be merged into positioning message and be sent to mobile terminal by embodiment.

9. Difference Calculation module 1009

The function of Difference Calculation module 1009 is the pseudorange for calculating mobile terminal to the base station LBS.

As shown in figure 5, the positioning message palindrome that the positioning message palindrome and the base station WPS that are issued by mobile terminal are sent back to is recorded There is location service center to send the time when time stamp T 0 for positioning message and mobile terminal receive positioning message with the base station WPS T1, T2, time difference, that is, mobile terminal of time T1 and time T2 and the base station WPS to the base station LBS pseudorange difference.T1 and T2 time Precision it is higher, pseudo range measurement accuracy is higher.

The base station WPS and mobile terminal clock precise degrees are the key factors of pseudo range measurement of the present invention.The base station WPS and movement When terminal clock is asynchronous, T1 and T2 cannot directly calculate pseudorange.

10. database module 1010

The effect of database module 1010 is the tense for saving the coordinate data of the base station LBS and calculating for pseudorange and coordinate Data.

The preferred embodiment of the present invention will be described in detail below can be used for indoor localization method.

One kind disclosed in another preferred embodiment of the present invention can be used for indoor localization method, and this method is using measurement indirectly Method realizes that indoor positioning includes two stages, and as shown in Figure 2: the 1st stage, outdoor dimensioning phase, S201 utilize mobile terminal Outdoor is able to use the characteristics of GNSS signal and obtains mobile terminal coordinate first, and S202 utilizes the measurement of outdoor moving end coordinates The coordinate of the base station LBS is repeated in step S203 in the 1st stage to step S201；2nd stage, the indoor positioning stage, S204, Utilize mobile terminal coordinate in the LBS base station coordinates measuring cell of acquisition.

One kind disclosed by the invention can be used for indoor localization method, generate difference letter using " time difference " localization method Breath.Specifically, as shown in figure 5, the base station LBS and the position coordinates of the base station WPS are substantially stationary constant, i.e. the base station LBS to WPS base The pseudorange Δ t12 that stands is that metastable feature realizes positioning.(note: radio wave spread speed in same media is constant, propagates Distance is directly proportional with the propagation time, and " pseudorange " is the method for directly indicating distance using the time propagated in the scope of the invention).

As shown in figure 5, location service center 505 issues the positioning message MSG1 with timestamp at the T0 moment, if by Dry internet router 504, the T1 moment reaches the base station LBS 503, and is forwarded by the base station LBS 503, and mobile terminal 501 is in T3 Receive MSG1 quarter, the base station WPS 502 receives the copy MSG1 of positioning message MSG1 at the T2 moment^*.Logic is closed according to figure 5 System is easy that mobile terminal 501 is calculated to pseudorange the Δ t13, Δ t13 of the base station LBS 503 to be " puppet " distance, and value range is permanent More than or equal to 0, further calculates and obtain 501 coordinate of mobile terminal.

In order to realize above-mentioned calculating target, the clock of synchronous mobile terminal 501 and the base station WPS 502 is needed.The base station WPS 502 Positioning message MSG1 will be received by positioning the message palindrome^*At the time of T2 be sent to location service center 505, mobile terminal 501 T3 is sent to location service center 505 at the time of positioning message MSG1 will be received by positioning the message palindrome.According to pictorial relationships, The difference Δ t23 of T3 and T2 indicates the difference of mobile terminal 501 and the base station WPS 502 with respect to the pseudorange of the base station LBS 503, Δ t23 value Range is real number field (distance is permanent to be more than or equal to 0, so Δ t23 is not distance but apart from its difference), since the position of base station is Fixed, the base station WPS 502 and 503 pseudorange Δ t12 of the base station LBS are it is known that Δ t12 is to be more than or equal to 0 apart from value range perseverance, warp It crosses and derives the pseudorange Δ t13 calculation formula that available mobile terminal 501 arrives the base station LBS 503:

T1=T2- Δ t12 (1)

Δ t13=T3-T1=T3- (T2- Δ t12) (2)

Δ t13=T3-T2+ Δ t12 (3)

It, can by the derivation of (2) formula it is found that Δ t13=T3-T2+ Δ t12, Δ t12 are pseudorange of the base station WPS to the base station LBS With precise measurement, because the precision of this time T3 and T2 are the major influence factors of pseudorange measurement accuracy.Mobile terminal 501 and LBS The precision of 503 pseudorange of base station is only related with the time precision of mobile terminal 501 and the base station WPS 502, and time precision is higher, surveys Accuracy of measurement is higher, and T0 is not related at the time of sending message with location service center 505, does not also have with network propagation time Δ t1 Relationship, that is, the time T1 that the base station LBS receives message is not acted in (3) formula for calculating mobile terminal pseudorange, therefore, this hair Bright disclosed one kind can be used for indoor positioning system and localization method, the electricity of the backbone network shake and terminal that effectively overcome The problem of magnetic environment causes.

Scientist's practical proof " Dan Weixing " of China may be implemented to position, but in order to realize to the accurate of mobile terminal Positioning needs to obtain multiple " positioning constellations " and the pseudorange to constellation.The base station LBS is used " to determine as fixed by invention Position constellation ", the base station LBS that mobile terminal to search arrives is more, and the coordinate and pseudorange of obtained " positioning constellation " are more, to mobile whole The positioning at end is more accurate.

For the coordinate and pseudorange realized more excellent effect, obtain multiple " positioning constellations ", the invention discloses mobile terminals The process interacted with the base station LBS, as shown in Figure 6.The base station LBS on mobile scanning terminal periphery forms a list, mobile terminal It selects a base station to establish connection according to preference policy, is sent and determined to location service center by the base station LBS after successful connection Position request message, location service center are carried out by starting service processes after authentication, issue positioning message and difference to the base station LBS Point message, mobile terminal and the base station LBS carry out one or many message interactions, according to preference policy select next base station into Row message interaction realizes precise positioning.

The more accurate coordinate in the base station LBS in order to obtain, the invention discloses a kind of Coordinate calculation methods of innovation.This method Coordinate calculating is carried out based on four big GNSS systems (GPS, BDS, GLONASS, GALILEO) in orbit at present, first Obtain the time seed an of satellite system, then with the clock signal of other satellite systems calibrated to obtain high quality when Clock signal recycles the clock signal calculating position coordinate, is finally repeated several times with clock jitter mean value and position deviation mean value Mobile terminal coordinate is calibrated, calculating process is as shown in Figure 7.

The present invention includes following crucial process flow and algorithm:

Invention defines Location Request message, positioning message, positioning four messages of the message palindrome and difference message, messages Interaction and circulation are the key that of the invention.The invention discloses one kind can be used for indoor localization method and system, in order to realize Message interaction process between indoor positioning four composition parts of the present invention, as shown in figure 11:

1. mobile terminal 1101 issues Location Request message, the base station LBS 1102 is arrived；

The base station 2.LBS 1102 forwards Location Request message to location service center 1103；

3.1 location service centers 1103 authenticate mobile terminal 1101, failed authentication refusal service；

3.2 mobile terminal, 1101 failed authentication cannot use service；

4. mobile terminal 1101 authenticates successfully, location service center 1103 provides service, sends positioning message to the base station LBS 1102；

The forwarding of 5.1 base stations LBS 1102 positions message to mobile terminal 1101；

The forwarding of 5.2 base stations LBS 1102 positions message to the base station WPS 1104；

6.1 mobile terminal, the 1101 restoring to normal position message palindrome is to the base station LBS 1102；

6.2 base station WPS, the 1104 restoring to normal position message palindrome is to the base station LBS 1102；

The base station 7.LBS 1102 forwards the positioning message palindrome of the base station WPS 1104 and the positioning message of mobile terminal 1101 to return Text arrives location service center 1103；

8. location service center 1103 sends difference message to the base station LBS 1102；

The base station 9.LBS sends difference message to mobile terminal 1101.

In order to overcome indoor positioning there is no satellite-signal and be covered using tradition LBS location technology, RSSI location technology, base station The problem of lid method positioning accuracy difference, of the invention can be used for indoor localization method using the indirect method of measurement.

The indirect method of measurement, including two steps, first step calibration process utilize the outdoor base station running fix indirect determination LBS Coordinate；Second step position fixing process utilizes the coordinate of known LBS base station coordinates measurement indoor objects " mobile terminal ".

First step S1 of the present invention is determining LBS base station coordinates, and specific implementation step is described with reference to Fig. 3.That is step S1 Include the following steps:

S101-301: mobile terminal receives satellite positioning signal and positions to itself, is having the differential signal auxiliary can be with It carries out enabling Differential positioning under conditions of high accuracy positioning, itself carries out precise positioning.Mobile terminal utilizes the clock school of GNSS The clock of standard itself；

S102-302: mobile terminal selects the base station LBS, issues Location Request message to the base station LBS or positioning message returns Text；

The base station S103-304:LBS sends Location Request message or positioning message to location service center；

S104-306: location service center judgement is Location Request message or the positioning message palindrome；

S105-309: if it is Location Request message, location service center is authenticated and is registered；

S106-307: judge whether to succeed in registration；

S107-308: registration failure is abandoned；

S108-305: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S109-311: if it is the positioning message palindrome, location service center according to the positioning message palindrome of mobile terminal and The GNSS coordinate of mobile terminal calculates LBS base station coordinates；

S110-312: location service center sends positioning message to the base station LBS；

The base station S111-310:LBS receives the positioning message of location service center, is transmitted to mobile terminal；

S112-303: mobile terminal receives positioning message and difference message, and optimization local coordinate system calculates；

S113: step S102-302, the coordinate information of continuous updating LBS base station coordinates are repeated.

In implementation process, Location Request message can merge with the positioning message palindrome, and step S104-306 process is changed to Judge whether mobile terminal has been registered, registered execution step S109-311, unregistered execution step S105-309.

Step 2 S2 of the present invention is to realize mobile terminal indoor positioning, and step 2 S2, which is characterized in utilizing, has measured coordinate The coordinate of mobile terminal in the measuring cell of the base station LBS.Specific implementation step is described with reference to Fig. 4.That is step S2 includes following step It is rapid:

S201-401: mobile terminal, which enters the room, cannot receive satellite positioning signal, start indoor mode；

S202-402: mobile terminal selects the base station LBS to issue Location Request message or positioning message time to the base station LBS Text；

The base station S203-403:LBS sends Location Request message or the positioning message palindrome to location service center；

S204-410: location service center judgement is Location Request message or the positioning message palindrome；

S205-407: if it is Location Request message, location service center is authenticated and is registered；

S206-408: judge whether to succeed in registration；

S207-409: registration failure is abandoned；

S208-406: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S209-414: if it is the positioning message palindrome, the positioning message palindrome of the location service center according to mobile terminal, meter Calculate mobile terminal coordinate；

S210-415: location service center sends positioning message and difference message to the base station LBS；

The base station S211-413:LBS receives the positioning message and difference message of location service center, be transmitted to mobile terminal and The base station WPS；

The base station S212-412:WPS receives positioning message, records the time of receipt (T of R), sends the positioning message palindrome to the base station LBS； WPS receives difference message, abandons.

The base station S213-411:LBS forwards the positioning message palindrome of the base station WPS sending to location service center；

S214-404: mobile terminal receives positioning message and difference message；

S214-402: mobile terminal is according to difference as adjustment local map coordinate；

S215-403: mobile terminal receives positioning message, records the time of receipt (T of R), issues the positioning message palindrome to the base station LBS,

S216: step S203-403, continuous updating mobile terminal coordinate are repeated.

It is hereafter the process and explanation of mobile terminal to search peripheral base station,

Feature of present invention first is that can simultaneously use more operators diversiform data business service, including 6PRS, 2/3/4/5G, WiMAXs, WiFi service.Selection access is with operator, selection access network type and selection access base station to this Invention acquires a special sense.Realize that the step S2 of mobile terminal location includes channel selecting module selection base station and iterative calculation stream Journey, as shown in Figure 6:

S601: temporary base station information table is established in the mobile scanning terminal periphery base station LBS；

S602: mobile terminal selects a base station LBS, establishes connection therewith；

S603: judge whether to establish successful connection；

S604: if establish connection it is unsuccessful if labeled as unsuccessful, abandon the base station, return step S602 continues to select Base station；

S605: if establishing successful connection, mobile terminal passes through the base station and location service center mutual message；

S606: location service center iterates to calculate the base station LBS or mobile terminal coordinate；

S607: repeating step S602, the base station LBS searched according to strategy trial；

S608: repeating step S601, is attempted to search for the available base station LBS in periphery according to strategy.

The embodiment of the present invention further mentions it is also preferred that simultaneously using RSSI/Rx method, inertial navigation technique and WiFi localization method High system robustness, reliability, availability.

Claims (11)

1. one kind can be used for indoor localization method, this method is characterized in that using mobile terminal, the base station LBS, the base station WPS and is determined Position service centre uses four messages: Location Request message, positioning message, the positioning message palindrome and difference message, between Mensuration, including two steps are connect, first step calibration process utilizes the coordinate of the outdoor base station mobile terminal location indirect determination LBS；The Two step position fixing process utilize the coordinate of known LBS base station coordinates measurement indoor objects " mobile terminal ".

2. localization method as described in claim 1, is characterized in that: calibration process includes that mobile terminal receives satellite positioning signal Itself is positioned, have differential signal auxiliary can carry out high accuracy positioning under conditions of enable Differential positioning, itself into Row precise positioning, mobile terminal utilize the clock of the clock alignment itself of GNSS.

3. localization method as described in claim 1 is characterized in that Location Request message and the positioning message palindrome in calibration process Merge, comprising steps of

S102-302: mobile terminal selects the base station LBS, issues Location Request message and the positioning message palindrome to the base station LBS；

The base station S103-304:LBS sends Location Request message and positioning message to location service center；

S104-306: judging whether mobile terminal has been registered, registered then execution to step S109-311, unregistered, executes To step S105-309；

S105-309: location service center is authenticated and is registered；

S106-307: judge whether to succeed in registration；

S107-308: registration failure is abandoned；

S108-305: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S109-311: location service center is calculated according to the GNSS coordinate of positioning the message palindrome and mobile terminal of mobile terminal LBS base station coordinates；

S110-312: location service center sends positioning message to the base station LBS；

The base station S111-310:LBS receives the positioning message of location service center, is transmitted to mobile terminal；

S112-303: mobile terminal receives positioning message and difference message, and optimization local coordinate system calculates；

S113: step S102-302, the coordinate information of continuous updating LBS base station coordinates are repeated.

4. localization method as described in claim 1 is characterized in that in calibration process that Location Request message and positioning message do not conform to And comprising steps of S102-302: mobile terminal selects the base station LBS, issues Location Request message or positioning report to the base station LBS The literary palindrome；

The base station S103-304:LBS sends Location Request message or positioning message to location service center；

S104-306: location service center judgement is Location Request message or the positioning message palindrome；

S105-309: if it is Location Request message, location service center is authenticated and is registered；

S106-307: judge whether to succeed in registration；

S107-308: registration failure is abandoned；

S108-305: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S109-311: if it is the positioning message palindrome, location service center is according to the positioning message palindrome of mobile terminal and movement The GNSS coordinate of terminal calculates LBS base station coordinates；

S110-312: location service center sends positioning message to the base station LBS；

The base station S111-310:LBS receives the positioning message of location service center, is transmitted to mobile terminal；

S112-303: mobile terminal receives positioning message and difference message, and optimization local coordinate system calculates；

S113: step S102-302, the coordinate information of continuous updating LBS base station coordinates are repeated.

5. localization method as described in claim 1, Location Request message and positioning message palindrome nonjoinder, packet in position fixing process Include step:

1. mobile terminal issues Location Request message, the base station LBS is arrived；

The base station 2.LBS forwards Location Request message to location service center；

3.1 location service centers authenticate mobile terminal 1101, failed authentication refusal service；

3.2 mobile terminals fail in authentication process, cannot use the service of location service center；

4. mobile terminal authentication success, location service center provide service, positioning message is sent to the base station LBS；

The forwarding of the base station 5.1LBS positions message to mobile terminal；

The forwarding of the base station 5.2LBS positions message to the base station WPS；

The 6.1 mobile terminal restoring to normal position message palindrome are to the base station LBS；

The base station the 6.2WPS restoring to normal position message palindrome is to the base station LBS；

The base station 7.LBS forward the base station WPS the positioning message palindrome and mobile terminal the positioning message palindrome to location service center；

8. location service center sends difference message to the base station LBS；

The base station 9.LBS sends difference message to mobile terminal.

6. localization method as described in claim 1, position fixing process includes step

S201-401: mobile terminal, which enters the room, cannot receive satellite positioning signal, start indoor mode；

S202-402: mobile terminal selects the base station LBS to issue Location Request message or the positioning message palindrome to the base station LBS；

The base station S203-403:LBS sends Location Request message or the positioning message palindrome to location service center；

S204-410: location service center judgement is Location Request message or the positioning message palindrome；

S205-407: if it is Location Request message, location service center is authenticated and is registered；

S206-408: judge whether to succeed in registration；

S207-409: registration failure is abandoned；

S208-406: succeeding in registration, and location service center starts service processes, sends positioning message to the base station LBS；

S209-414: if it is the positioning message palindrome, location service center is calculated and is moved according to the positioning message palindrome of mobile terminal Dynamic end coordinates；

S210-415: location service center sends positioning message and difference message to the base station LBS；

The base station S211-413:LBS receives the positioning message and difference message of location service center, is transmitted to mobile terminal and WPS Base station；

The base station S212-412:WPS receives positioning message, records the time of receipt (T of R), sends the positioning message palindrome to the base station LBS；WPS is received To difference message, abandon.

The base station S213-411:LBS forwards the positioning message palindrome of the base station WPS sending to location service center；

S214-404: mobile terminal receives positioning message and difference message；

S214-402: mobile terminal is according to difference as adjustment local map coordinate；

S215-403: mobile terminal receives positioning message, records the time of receipt (T of R), issues the positioning message palindrome to the base station LBS,

S216: step S203-403, continuous updating mobile terminal coordinate are repeated.

7. one kind can be used for indoor localization method, it is characterized in that this method using the indirect method of measurement, including two stages: the 1st Stage, outdoor dimensioning phase, the stage include S201, obtain mobile terminal coordinate, S202, in outdoor utilization using GNSS signal The coordinate of the base station mobile terminal coordinate measuring LBS, S203 are repeated S201 and S202 more times；2nd stage, indoor positioning stage, packet S204 is included, mobile terminal coordinate in the LBS base station coordinates measuring cell of acquisition is utilized.

8. can be used for indoor localization method as claimed in claim 7, it is characterized in that: is produced using " time difference " localization method Difference information is given birth to, this is used in the process and the substantially stationary constant base station WPS of the position coordinates of the base station LBS.

9. can be used for indoor localization method as claimed in claim 8, be characterized in that: in the 2nd stage, location service center exists The T0 moment issues the positioning message MSG1 with timestamp, reaches the base station LBS at the T1 moment by several internet routers, And forwarded by the base station LBS, mobile terminal receives MSG1 at the T3 moment, and the base station WPS receives the pair of positioning message MSG1 at the T2 moment This MSG1^*, it is possible thereby to which mobile terminal is calculated to the pseudorange Δ t13 of the base station LBS, value range perseverance is more than or equal to 0, utilization The value, which further calculates, can be obtained mobile terminal coordinate.

10. can be used for indoor localization method as claimed in claim 7, it is characterized in that: further includes movement before the 1st stage Terminal scans the step of base station LBS on periphery, specifically: a column are formed the step of the base station LBS on mobile scanning terminal periphery Table, mobile terminal select a base station to establish connection, are sent and are positioned to location service center by the base station LBS after successful connection Request message, location service center are carried out by starting service processes after authentication, issue positioning message and difference to the base station LBS Message, mobile terminal and the base station LBS carry out one or many message interactions, and expression is successfully established connection, later mobile terminal Next base station LBS is selected to repeat the above steps, to realize precise positioning.

11. can be used for indoor localization method as claimed in claim 7, it is characterized in that: the accurate seat of the base station LBS in order to obtain Mark, by four big GNSS systems in orbit at present: coordinate calculating is carried out based on GPS, BDS, GLONASS, GALILEO, it is first The time seed of a satellite system is first obtained, is then calibrated to obtain clock letter with the clock signal of other satellite systems Number, the clock signal calculating position coordinate is recycled, is finally repeated several times with clock jitter mean value and the equal value calibration of position deviation Mobile terminal coordinate.