CN105852824B - Positioning, vital sign monitoring and search and rescue system in the cabin of crewman sea - Google Patents

Abstract

Positioning, vital sign monitoring and search and rescue system in a kind of cabin of crewman sea, including：Command centre's server, fence transmitter, crewman's vital sign real-time monitor, crewman's Real Time Localizer, carrier-borne personnel positioning processor and persons falling in water locator, it is by being based on the modern information technologies such as AIS, UWB, big-dipper satellite positioning, single crewman's vital sign real-time monitor, carrier-borne and persons falling in water Real Time Localizer and wounded's vital sign and location data Transmission system are developed, realizes that marine wounded's vital sign monitoring automation, information storage electronization, information transmission network and the wounded give first aid to visualization.

Description

Positioning, vital sign monitoring and search and rescue system in the cabin of crewman sea

Technical field：

The present invention relates to the technical field of information management of safety of crew, and in particular to is positioned in a kind of cabin of crewman sea, is raw Order sign monitoring and search and rescue system.

Background technology：

China is faced with from marine many threats at present, and in the local war under Information Condition, aviation is female The large size such as warship, destroyer naval vessels may be hit in the short time by enemy and generate a large amount of wounded.By by army's naval vessel life entity Sign telemetering and rescue system also make great sense applied to ship for civil use industry.China's ship for civil use enormous amount, Sui Zhe "With people For this "It is rooted in the hearts of the people, carrying out vital sign telemetering, overboard monitoring and maritime search and rescue to the personnel in operation at sea ship proposes Once sending emergency or disaster event occur for higher requirement, grasp the exact position of ship's staff, injured situation in real time It is extremely important with medical aid for quickly searching and rescuing, once the window phase that mistake is valuable, it will cause subsequent great personnel's damage Cost is lost and rescues, therefore the project has very great significance for ship ongoing operations and disaster relief tool.

Currently, in Foreign Military market, U.S. army at sea searches and rescues and rescue aspect is in rank first.Domestic application In, due to the gradual perfection of China's dipper system, catch up with and surpass external chance to we provide.It is domestic at present on commercial market More ripe to GPS, AIS technology application outside, monotechnics have formed certain market and scale.Some of recent years are related to The disaster accident of rescue at sea, no matter on warship (ship) accident and it is overboard rescue or the overboard rescue of airplane crash, all highlighted to position Accident target, shortening rescue time still save rescue cost and all have very important significance.

Therefore either army naval vessel or ship for civil use (including fishing boat, container ship, LPG etc.), all it is badly in need of a set of complete Positioning, vital sign monitoring and search and rescue system in whole crewman sea cabin.Positioning, vital sign monitoring in warship, crewman sea cabin And search and rescue system informationization application field is extensive, is applied not only to position in complicated large-scale naval vessels cabin, it is civilian to can be additionally used in, due to Large-scale warship, cabin room be complicated, densely populated place, be damaged sexual assault when, be also easy to produce a large amount of wounded in a short time.The wounded give first aid to Work easily encounters difficulty different from the past at this moment：First, wartime situation is unpredictable, when, where, who am injured or fall Water is all unknown, and the condition of the injury weight different from of the different wounded, is needed identified in time；Second is that large-scale combat vessel structure Complexity, wounded position are not easy to obtain, and conventional search and rescue is difficult to carry out.If warship, positioning in the cabin of crewman sea, raw can be developed Sign monitoring and search and rescue system are ordered, a convenience, intuitive, interactive, controllable search and rescue information platform can be provided to the user, to carry High maritime organization rescue command and sick and wounded's Level of first-aid treatment have great meaning to realize that rescue at sea guarantee provides scientific basis Justice.

The applicant has been devoted to the R&D work of this respect, has applied and to obtain Chinese invention patent as follows： CN201210086546.4, entitled " sign monitor based on wireless radio-frequency and its monitoring method ", publication number CN102613965A provides a kind of sign monitor based on wireless radio-frequency, to acquire Human Physiology achievement data, And monitoring base station equipment is sent data to by way of radio communication, including：Several sensors, sensor data acquisition mould Block, processor module, Zigbee network communication module and power module etc.；CN201210086795.3, it is entitled " to be based on Wearable wounded's vital sign real-time monitoring system of wireless radio-frequency ", publication number CN102715891A provides a kind of base In wearable wounded's vital sign real-time monitoring system of wireless radio-frequency, including：Including：Several guardian sensors nodes, Zigbee/wifi sensor monitorings net, wounded's information monitoring system and big-dipper satellite command monitor system, the guardian sensors section Connected by the Zigbee/wifi sensor monitorings net between point, wounded's information monitoring system and big-dipper satellite command monitor system It connects, the guardian sensors node acquires Human Physiology achievement data, and passes through the Zigbee/ using radio communication mode Wifi sensor monitoring nets are transmitted to wounded's information monitoring system and big-dipper satellite command monitor system；The guardian sensors Node uses sign monitor, the sign monitor to further comprise：Temperature monitoring module, monitoring of pulse module, blood oxygen prison Survey module, monitoring of blood pressure module etc..

It there is no positioning in the crewman sea cabin of complete set, vital sign monitoring and search and rescue system and its method at present.

Technical problem underlying to be solved by this invention is：1, dipper system is given full play to, (ship is automatic by GPS, AIS Identifying system) the respective advantage with integration.2, research and development Transmission system how by the basic information being collected into such as location data, monitoring Information and big-dipper satellite alignment system transmission module are integrated；How research and development realize the seamless right of search and rescue system and dipper system It connects, the communication function of dipper system is quickly and efficiently utilized convenient for medical service force, timely summary information and sends out instruction.3, how Carry out the quantization acquisition of path optimization's previous information：Dynamic time shaft control is completed on platform, but specific wounded's row Into or medical acquisition approach need a large amount of field survey work, and also need in measurement process to combine various scene factors Different real process is set, each path, each type of wounded are all carried out with the rehearsal and measurement of example.

Invention content：

The technical scheme is that by using Dynamic Simulation Method, large-scale naval vessels inner track environment, naval vessels are simulated The wounded occur to be distributed with identification, are optimized to the search and rescue path of the wounded；It is existing by being based on AIS, UWB, big-dipper satellite positioning etc. For information technology, single crewman's vital sign real-time monitor, carrier-borne and persons falling in water Real Time Localizer and wounded's life are developed Sign and location data Transmission system are ordered, realizes that marine wounded's vital sign monitoring automation, information storage electronization, information pass Defeated networking and the wounded give first aid to visualization.Medical service force can utilize individual soldier's vital sign real-time monitor, the crewman based on UWB real When locator, the persons falling in water locator based on Beidou satellite system, discovery be in different location and concealed in numerous cabins The interior wounded and persons falling in water, assisting commander department, establishment officer's supplement is vacant as early as possible, and guides warship person, hygienic soldier, health Member, doctor have found and give first aid to the wounded as early as possible, win valuable " gold " therapeutic time, to farthest reduce personnel's wound It dies.

Key technology according to the present invention includes：

1, dynamic analog (Dynamic Simulation)：Refer to and describes system by ODE or partial differential equation Out, the process of real-time system action model is then established by computer program.Briefly, dynamic analog is digital mould It is quasi-, the process time interval of a step is needed, its integral is calculated by obtaining the area under approximate derivative curve to be tied Fruit.

2, monte carlo method (Monte Carlo Method)：Also known as computer stochastic simulation method exists derived from the U.S. " Manhattan project " that atom bomb is developed in World War II, is proposed by Ulam and Von Neumann et al., for solving The computational problem encountered at that time.Due to this method be easy determine mean square deviation, with regard to be not present number of significant digit lose problem, and because Sliding-model control is not necessarily carried out for it, therefore makes it suitable for solving the problems, such as higher-dimension, depositing for computer is greatly saved Storage unit.

3, UWB (UltraWideband) technology：It is a kind of carrierfree communication ultra-wide band communication technology, using nanosecond to micro- The burst pulse transmission data of Microsecond grade.By transmitting the wireless signal of low-power on wider frequency spectrum, UWB can be on 200 meters of left sides The positioning accuracy of 0.15m-0.3m is realized in right range, and can transmit vital sign data.UWB has anti-interference ability simultaneously By force, transmission rate is high, very bandwidth is wide, consumption electric energy is small, transmission power is small etc. lives many advantages, be mainly used in secret communication, The fields such as high precision position measurement, radar.

4, Sensium technologies：It is a super low-power consumption sensor interface and transceiver platform, it is restructural including one Digital module, a radio transceiver module and a built-in temperature sensor for sensor interface, provided with processor.Work as people Member wears or when wearing this sensor, can continuously monitor a variety of health indicators, such as the rhythm of the heart, body temperature, pulse rates and exhales Frequency is inhaled, and these data are transferred to the base station for being mounted with medical records instrument, is a kind of the real-time of the important life signal of human body Wireless monitor.

Positioning, vital sign monitoring and search and rescue system in a kind of complete crewman sea cabin of present invention offer, including：Commander Central server, fence transmitter, crewman's vital sign real-time monitor, crewman's Real Time Localizer, carrier-borne personnel positioning Processor and persons falling in water locator, wherein fence transmitter, in naval vessel area under the control of command centre's server Launching electronics signal in the range of domain confirms that crewman on naval vessel, works as crewman when crewman's Real Time Localizer is located in fence Real Time Localizer leaves fence, then it is assumed that crewman is overboard；Crewman's vital sign real-time monitor acquires the life of crewman in real time Order sign；Crewman's Real Time Localizer, for when crewman's Real Time Localizer is located in fence, confirming crewman on naval vessel, Positioning in real time is carried out to crewman and obtains crewman's vital sign data from crewman's vital sign real-time monitor, and by response data It is sent to carrier-borne personnel positioning processor, location data is transmitted to command centre's service after the processing of carrier-borne personnel positioning processor Device；Persons falling in water locator, for when crewman's Real Time Localizer leaves fence, confirming that crewman is overboard, persons falling in water is fixed Position device emits positioning signal to command centre's server, while emitting from crewman's vital sign real-time monitor and obtaining crewman's life Sign data；Command centre's server can be combined for receiving and processing crewman's location data and crewman's vital sign data Crewman's location data, is shown in Electronic Chart System, and carries out Comprehensive Evaluation.

Preferably, crewman's vital sign real-time monitor is wearing formula device, utilizes the sensing technologies such as Sensium.Crewman Vital sign real-time monitor include temperature monitoring module, monitoring of pulse module, respiratory wave monitoring modular, monitoring of blood pressure module, Cardioelectric monitor module, motion monitoring module and processor.The processor of crewman's vital sign real-time monitor is controlling body temperature Monitoring modular, monitoring of pulse module, respiratory wave monitoring modular, monitoring of blood pressure module, cardioelectric monitor module, motion monitoring module work Make, and data measured is transmitted to crewman's Real Time Localizer by IEEE 802.15.4 agreement Radio Transmission Technologys；Temperature monitoring The data monitored are sent to processor by module to monitor the body temperature characteristic value of the wounded；Monitoring of pulse module is supervising The pulse characteristics value of the wounded is surveyed, and the data monitored are sent to processor；Respiratory wave monitoring modular is exhaled to monitor the wounded Frequency is inhaled, and the data of monitoring are sent to processor；Monitoring of blood pressure module will supervise to monitor the blood pressure characteristics value of the wounded The data measured are sent to processor；Cardioelectric monitor module is monitoring the ecg characteristics value of the wounded, and the data that will be monitored It is sent to processor；The data of monitoring are sent to processing by motion monitoring module to monitor wounded's motor pattern and feature Device.

Preferably, crewman's Real Time Localizer uses UWB wireless communication techniques, including IEEE 802.15.4 agreement receivers Label is positioned with UWB, it includes impulse generator that wherein UWB, which positions label, generates pulse electromagnetic wave, and signal source is modulated by antenna It sends out.

Preferably, persons falling in water locator is the Big Dipper and AIS bimodulus devices, and Big Dipper location data is by big-dipper satellite and defends To command centre's server, AIS location datas by AIS ship carry base station and are transferred to command centre to be serviced star communication link Device is positioned using AIS under normal condition, if AIS positioning failures, are directly positioned by the Big Dipper.Persons falling in water locator includes Big-dipper satellite locating module, AIS modules, location data processing module, Anneta module and power management module.

Preferably, command centre's server can also optimize the search and rescue path of the indoor wounded in cabin and persons falling in water, by Dynamic analog platform Anylogic constructing analogs naval vessel and marine path, according to the knot of crewman's positioning and its vital sign monitoring Fruit carries out path optimization.

The present invention also provides positioning, vital sign monitoring and rescue method, packets in the crewman sea cabin based on above system Include following steps：

Step 1：Fence transmitter launching electronics in naval vessel regional extent under the control of command centre's server Signal confirms crewman on naval vessel, when crewman's Real Time Localizer leaves electricity when crewman's Real Time Localizer is located in fence Sub- fence, then it is assumed that crewman is overboard；

Step 2：Crewman's vital sign real-time monitor acquires crewman's vital sign monitoring data；

Step 3：When crewman's Real Time Localizer is located in fence, crewman is confirmed on naval vessel, crewman positions in real time Device acquires carrier-borne personnel positioning data, and obtains above-mentioned crewman's vital sign Real-time Monitoring Data, by crewman's vital sign data It is sent to carrier-borne personnel positioning processor with location data, location data is transmitted to finger after the processing of carrier-borne personnel positioning processor Wave central server；

Step 4：When crewman's Real Time Localizer leaves fence, then it is assumed that crewman is overboard, starts persons falling in water positioning Device, persons falling in water locator acquire persons falling in water location data, and obtain crewman's vital sign data, and by itself and persons falling in water Location data sends jointly to command centre's server；

Step 5：After human life's sign data and location data are by data link transmission to command centre's server, It is presented in commander's machine map in real time, display personal information, vital sign, location data.

Preferably, in step 2, crewman's vital sign monitoring data are acquired using multiple sensors, wherein temperature passes Sensor signal output end connects temperature sensor embedded with conducting wire, obtains crewman's auxillary temperature in real time；Monitoring of pulse Sensor monitoring Arteria brachialis beats per minute；Movement of thorax and cardiac position caused by respiratory wave monitors sensor by monitoring human body respiration Variation is fluctuated in conjunction with electrocardio, obtains respiratory rate；Monitoring of blood pressure sensor calculates body surface 2 not by monitoring pulse wave With the pulse wave conduction speed of position conduction, models coupling Kalman filter equation is established, thus it is speculated that human blood-pressure；Cardioelectric monitor passes Sensor obtains human body electrocardio wave in real time by 3 lead electrocardioelectrodes, and is amplified faint electrocardiosignal by signal amplifier, Noise and clutter are removed by filter；Motion monitoring passes through the six degree of freedom gyroscope and the three-dimensional that are placed on human body wearable device Accelerograph, intelligence evaluate and test human motion state.

Preferably, in step 3, when acquiring carrier-borne personnel positioning data, by building the wireless network in hull interior Network sends pulse electromagnetic wave in real time using UWB positioning label techniques, and carrier-borne personnel positioning processor receives, and using based on away from From location algorithm TOA (Time of Arrival) telemetry, to measure the distance between UWB transceiver communication nodes.Vital sign The pulse electromagnetic wave that data information can also position label transmitting by UWB is transferred to carrier-borne personnel positioning processor.

Preferably, in step 4, it is fixed using Big Dipper positioning and AIS that persons falling in water locator acquires persons falling in water location data Position double-mode, is positioned using AIS under normal condition, if AIS positioning failures, are directly positioned by the Big Dipper.

Preferably, in step 5, the vital sign that command centre's server is set herein in connection with site environment residing for human body is sentenced Disconnected standard carries out real-time judge individual's life entity state using Bayesian formula and Markov Chain.Command centre's server is also The search and rescue path that the indoor wounded in cabin and persons falling in water can be optimized, the human life's sign obtained according to command centre and positioning Data, combined structure and interior compartment environmental map, simulation search and rescue route, select optimal search and rescue and transportation route.

Beneficial effects of the present invention：

1. adapting to the needs of modern war rescue at sea.China is suffered from from marine many threats, large-scale warship at present The attack of ship once being damaged property is very easy to generate the high-volume wounded in a short time.On the one hand it is since large size is fought The personnel amount of naval vessels carrying is big, and density is high, and any part of naval vessels, which is wound, may all cause direct injury of human；It is another Aspect, since naval vessels battle station, cabin are numerous, complex circuit, the fire caused after being hit, toxic gas leakage, explosion etc. Also secondary injury can be caused to warship person.In addition to this, the wounded are it is also possible to directly overboard because naval vessels are hit, or in warship It is overboard when ship topples.By large-scale naval vessels individual soldier based on information technology positioning, vital sign monitoring and the development searched and rescued with Using, targetedly marine medical rescue training is carried out, rescue personnel can be helped to distinguish the condition of the injury severity of the different wounded, Accomplish " light after first weighing, to delay after first urgency ", improve the level of resources utilization, rational medical treatment is completed within the prime time for the treatment of of war wound Treatment is safeguarded and restores naval vessel employee and makees strength.

2. positioning, vital sign monitoring and search and rescue system, have precise and high efficiency, economic security etc. excellent in the cabin of crewman sea Point：U.S. army thinks that the system will cause the revolutionary variation of maritime search and rescue, can abolish what current medical support at sea personnel searched and rescued Bottleneck improves efficiency and level that personnel search and rescue.

3. positioning, vital sign monitoring and search and rescue system, rescue path is carried out by dynamic model in the cabin of crewman sea Optimization, real system is studied by the structure, function and behavior of model, the characteristics of to study wartime rescue at sea and rule Rule, the demand of dynamic analysis health resources, using with sick and wounded's rescued effect.The function that both can be given full play to, and can be with It optimizes and improves in practical applications.Its economic benefit, if 4,000,000 project funds of input, outfit connects, transceiver, fixed Position position indicating mark, the network equipment, software development etc. can be used as Ship Equipment configuration, and each ship only considers 700,000, and China is existing big Type naval vessel is using its income up to several hundred million.

In short, positioning, vital sign monitoring and search and rescue system realize warship (ship) member life in the crewman sea cabin of the present invention It orders sign telemetering and searches and rescues unified management, the functions such as realize the unified management of various data, safeguard, distribute, and based on defending duty With the optimum management sued and laboured.It can be used for the Big Dipper+AIS+ vital sign individual soldier equipment and civilian life-support back pack：Realize warship (ship) member Positioning, search and rescue signal transmission, vital sign monitoring after overboard.Positioning accuracy 10-20m, 50 nautical miles of search and rescue signal range, life entity Sign is sent simultaneously with signal, can be promoted marine warship person's supportability and level, be accomplished to realize specific to the single wounded's Efficient Support and merging, promoting warship person's fighting capacity for naval vessel information and commanding in the rear platform can be promoted.

Description of the drawings：

Fig. 1 is positioning in the crewman sea cabin of the present invention, vital sign monitoring and search and rescue system block diagram；

Fig. 2 is the signal flow graph of positioning in the crewman sea cabin of the present invention, vital sign monitoring and search and rescue system；

Fig. 3 is positioning in the crewman sea cabin of the present invention, vital sign monitoring and crewman's life entity levies in kind of search and rescue system When monitor schematic diagram；

Fig. 4 is the carrier-borne people based on UWB of positioning in the crewman sea cabin of the present invention, vital sign monitoring and search and rescue system Member positions schematic diagram in real time；

Fig. 5 be the present invention crewman sea cabin in positioning, vital sign monitoring and search and rescue system persons falling in water position and Search and rescue block diagram.

Specific implementation mode：

Below in conjunction with attached drawing 1-5, the invention will be further described.It should be understood that following embodiment is merely to illustrate the present invention Not for restriction the scope of the present invention.

Positioning, vital sign monitoring and search and rescue system include command centre's server, electricity in the crewman sea cabin of the present invention Sub- fence transmitter, crewman's vital sign real-time monitor, crewman's Real Time Localizer, carrier-borne personnel positioning processor and overboard people Member's locator.

Fence transmitter, launching electronics are believed in naval vessel regional extent under the control of command centre's server Number, when crewman's Real Time Localizer is located in fence, crewman is confirmed on naval vessel, when crewman's Real Time Localizer leaves electronics Fence, then it is assumed that crewman is overboard.

Crewman's vital sign real-time monitor is designed as wearable garment shape using sensing technologies such as Sensium, interior Embedding multiple sensors and controller etc., in real time acquire crewman vital sign, including temperature monitoring module, monitoring of pulse module, Respiratory wave monitoring modular, monitoring of blood pressure module, cardioelectric monitor module, motion monitoring module and processor.Wherein, processor is used To control body temperature monitoring modular, monitoring of pulse module, respiratory wave monitoring modular, monitoring of blood pressure module, cardioelectric monitor module, movement Monitoring modular works, and data measured is transmitted to crewman by IEEE 802.15.4 agreement Radio Transmission Technologys and is positioned in real time Device；The data monitored are sent to processor by temperature monitoring module to monitor the body temperature characteristic value of the wounded；Monitoring of pulse The data monitored are sent to processor by module to monitor the pulse characteristics value of the wounded；Respiratory wave monitoring modular to Wounded's respiratory rate is monitored, and the data of monitoring are sent to processor；Monitoring of blood pressure module is special to the blood pressure for monitoring the wounded Value indicative, and the data monitored are sent to processor；Cardioelectric monitor module will supervise to monitor the ecg characteristics value of the wounded The data measured are sent to processor；Motion monitoring module is to monitor wounded's motor pattern and feature, and by the data of monitoring It is sent to processor.

Crewman's Real Time Localizer, for being positioned and being acquired crewman's vital sign data in real time to crewman, and will be corresponding Signal emits outward, and high speed, low cost and low-power consumption, the strong UWB of anti-multipath jamming, penetration capacity is used to wirelessly communicate skill Art is designed as watch shape, including IEEE 802.15.4 agreements receivers and UWB position label, and wherein UWB positions label packet Impulse generator is included, generates pulse electromagnetic wave, signal source is modulated to be sent out by antenna.When crewman's Real Time Localizer is enclosed positioned at electronics When in column, crewman is confirmed on naval vessel, crewman's Real Time Localizer sends the crewman's vital sign data and location data of acquisition To carrier-borne personnel positioning processor, location data route device transmission after the processing of carrier-borne personnel positioning processor by data transmission To command centre's server.Its Ding Weijingdu <0.3m, vital sign sample rate 1HZ~100HZ, overboard monitoring fast response time In 0.01 second.

Persons falling in water locator, for when crewman's Real Time Localizer leaves fence, confirming that crewman is overboard, overboard people Member's locator sends out alarm signal to command centre's server, and emits positioning signal, notify commanding and report personnel with The relative position on naval vessel comprising big-dipper satellite locating module, AIS modules, location data processing module, Anneta module, power supply Management module.The persons falling in water locator is the Big Dipper and AIS bimodulus devices, and Big Dipper location data is logical by big-dipper satellite and satellite Believe link transmission arrive command centre's server, AIS location datas by AIS ship load base station be transferred to command centre's server, from And can realize Big Dipper location data and the check and correction of AIS location datas and merge, mould is handled by location data under normal condition Block forms AIS messages and is sent to commander's base station broadcast, if AIS Module Fails, is directly sent to commander by Big Dipper short message Machine, dual-mode design ensure that location data sends and guides rescue in time.Persons falling in water locator can also acquire crewman's life entity Data are levied, and itself and location data are sent jointly into command centre's server.

Command centre's server can combine ship for receiving and processing crewman's location data and crewman's vital sign data Member's location data, carries out Comprehensive Evaluation, to realize combining closely for vital sign monitoring information and location data, by having The information engaging process of effect realizes accessible transmission of the vital sign by positioning system channel, meets what actual needs solved Information summarizes, counts, transmitting and the various demands such as instruction issuing.Command centre's server can also optimize the indoor wounded in cabin With the search and rescue path of persons falling in water, marine large-scale combat vessel interior compartment, mould are constructed by dynamic analog platform Anylogic The path and combinations thereof for intending its inside, according to wounded's distribution with vital sign monitoring as a result, according to " after first weighing gently, after first urgency It is slow " principle, and determined on the basis of path optimization and carry or search and rescue route, completed path optimization, propose prioritization scheme.

Include following step the present invention is based on positioning, vital sign monitoring and rescue method in the crewman sea cabin of above system Suddenly：

Fence transmitter launching electronics signal in naval vessel regional extent under the control of command centre's server, when When crewman's Real Time Localizer is located in fence, crewman is confirmed on naval vessel, when crewman's Real Time Localizer leaves fence, Then think that crewman is overboard.

Crewman's vital sign real-time monitor acquires crewman's vital sign Real-time Monitoring Data, temperature sensor signal output End connects temperature sensor embedded with conducting wire, obtains crewman's auxillary temperature in real time, while data measured is passed to processor；Pulse is supervised Sensor monitoring arteria brachialis beats per minute are surveyed, while data measured is passed to by processor by conducting wire；Respiratory wave monitors Sensor is changed by movement of thorax and cardiac position caused by monitoring human body respiration, is fluctuated in conjunction with electrocardio, and respiratory rate is obtained, And the data obtained is transmitted to processor；Monitoring of blood pressure sensor calculates 2 different locations of body surface by monitoring pulse wave The pulse wave conduction speed of conduction establishes models coupling Kalman filter equation, thus it is speculated that human blood-pressure；Cardioelectric monitor sensor is logical It crosses 3 lead electrocardioelectrodes and obtains human body electrocardio wave in real time, and amplified faint electrocardiosignal by signal amplifier, pass through filter Wave device removes noise and clutter, sends signal to processor.Motion monitoring is free by be placed on human body wearable device six Spend gyroscope and three-dimensional accelerometer, intelligence evaluates and tests human motion state, while according to state to physiological compensation effects quality into Row effectively assessment, accept or reject and self-correcting, avoid as possible and influence of the mitigation activity to physiological signal measurements.Processor is by each biography Sensor obtains information data parsing compression, by the data transmission after fusion to emitter.

When crewman's Real Time Localizer is located in fence, crewman is confirmed on naval vessel, the acquisition of crewman's Real Time Localizer Carrier-borne personnel's real time positioning data, and obtain above-mentioned crewman's vital sign Real-time Monitoring Data, by crewman's vital sign data and Location data is sent to carrier-borne personnel positioning processor, and location data is transmitted to commander after the processing of carrier-borne personnel positioning processor Central server.Wherein, by building the wireless network in hull interior, pulse is sent using UWB positioning label techniques in real time Electromagnetic wave, carrier-borne personnel positioning processor receive, and are surveyed using the location algorithm TOA (Time of Arrival) based on distance Away from method, to measure the distance between UWB transceiver communication nodes, and it is presented in map in conjunction with coordinate, real-time positional accuracy about 10 Centimetre, location frequency is even higher up to 200HZ, while vital sign data information can also be transmitted by this pulse electromagnetic wave To carrier-borne personnel positioning processor.

When crewman's Real Time Localizer leaves fence, then it is assumed that crewman is overboard, starts persons falling in water locator.The positioning Device can both manually boot, and overboard can also automatically turn on.Persons falling in water locator acquires persons falling in water location data, gatherer process Double-mode is positioned with AIS for Big Dipper positioning, Big Dipper location data is transferred to commander by big-dipper satellite and satellite communication link Central server, AIS location datas carry base station by AIS ship and are transferred to command centre's server, so as to realize that the Big Dipper is fixed Position data proofreaded and merged with AIS location datas, under normal condition by location data processing module formation AIS messages to It commands base station broadcast to send, if AIS Module Fails, commander's machine is directly sent to by Big Dipper short message, dual-mode design ensures Location data sends and guides rescue in time.Persons falling in water locator can also acquire crewman's vital sign data, and by its with Location data sends jointly to command centre's server.

The wireless and wired network that crewman's vital sign monitoring information and carrier-borne personnel positioning data transmission pass through the full ship of covering Network not only overcomes the signal shielding of hull steel body structure using the transmission convenience of wireless network but also using cable network.Personnel give birth to After sign data and location data are ordered by data link transmission to command centre's server, it is presented on commander's machine map in real time In, display personal information, vital sign, location data.

Command centre's server combines whether the vital sign criterion of setting, real-time judge individual's life entity state need Want medical rescue.Site environment residing for vital sign criterion combination human body can adjust, revise underlying parameter, mould at any time simultaneously Type structure is predicted in real time using Bayesian formula and Markov Chain.

Command centre's server can also optimize the search and rescue path of the indoor wounded in cabin and persons falling in water, according to command centre Route is searched and rescued in the human life's sign and location data of acquisition, combined structure and interior compartment environmental map, simulation, is selected optimal Search and rescue and transportation route propose prioritization scheme, aid decision.

The preferred embodiment of the invention is illustrated above, but the invention be not limited to it is described Embodiment, those skilled in the art can also make various equivalent under the premise of without prejudice to the invention spirit Modification or replacement, these equivalent modifications or replacement are all contained in the application claim limited range.

Claims (7)

1. positioning, vital sign monitoring and search and rescue system in a kind of cabin of crewman sea, it is characterised in that including：Command centre services Device, fence transmitter, crewman's vital sign real-time monitor, crewman's Real Time Localizer, carrier-borne personnel positioning processor and Persons falling in water locator, wherein

Fence transmitter, under the control of command centre's server in naval vessel regional extent launching electronics signal, when When crewman's Real Time Localizer is located in fence, crewman is confirmed on naval vessel, when crewman's Real Time Localizer leaves fence, Then think that crewman is overboard；

Crewman's vital sign real-time monitor acquires the vital sign of crewman in real time；

Crewman's Real Time Localizer, for when crewman's Real Time Localizer is located in fence, confirming crewman on naval vessel, to ship Member carries out positioning in real time and obtains crewman's vital sign data from crewman's vital sign real-time monitor, and response data is sent To carrier-borne personnel positioning processor, location data is transmitted to command centre's server after the processing of carrier-borne personnel positioning processor；

Persons falling in water locator, for when crewman's Real Time Localizer leaves fence, confirming that crewman is overboard, persons falling in water is fixed Position device emits positioning signal to command centre's server, while emitting from crewman's vital sign real-time monitor and obtaining crewman's life Sign data；

Command centre's server can combine crewman for receiving and processing crewman's location data and crewman's vital sign data Location data is shown in Electronic Chart System, and carries out Comprehensive Evaluation；

Command centre's server can also optimize the search and rescue path of the indoor wounded in cabin and persons falling in water, by dynamic analog platform Anylogic constructing analogs naval vessel and marine path, according to crewman's positioning and its vital sign monitoring as a result, to carry out path excellent Change.

2. the system as claimed in claim 1, it is characterised in that：Crewman's vital sign real-time monitor is wearing formula device, profit With Sensium sensing technologies.

3. system as claimed in claim 2, it is characterised in that：Crewman's vital sign real-time monitor includes temperature monitoring mould Block, monitoring of pulse module, respiratory wave monitoring modular, monitoring of blood pressure module, cardioelectric monitor module, motion monitoring module and processing Device.

4. system as claimed in claim 2 or claim 3, it is characterised in that：The processor of crewman's vital sign real-time monitor to Control body temperature monitoring modular, monitoring of pulse module, respiratory wave monitoring modular, monitoring of blood pressure module, cardioelectric monitor module, movement prison Module work is surveyed, and data measured is transmitted to crewman's Real Time Localizer by IEEE802.15.4 agreement Radio Transmission Technologys； The data monitored are sent to processor by temperature monitoring module to monitor the body temperature characteristic value of the wounded；Monitoring of pulse mould The data monitored are sent to processor by block to monitor the pulse characteristics value of the wounded；Respiratory wave monitoring modular is supervising Wounded's respiratory rate is surveyed, and the data of monitoring are sent to processor；Monitoring of blood pressure module is monitoring the blood pressure characteristics of the wounded Value, and the data monitored are sent to processor；Cardioelectric monitor module will monitor to monitor the ecg characteristics value of the wounded To data be sent to processor；Motion monitoring module sends out the data of monitoring to monitor wounded's motor pattern and feature It send to processor.

5. the system as claimed in claim 1, it is characterised in that：Crewman's Real Time Localizer uses UWB wireless communication techniques, including IEEE 802.15.4 agreements receivers and UWB position label, and it includes impulse generator that wherein UWB, which positions label, generate pulse electricity Magnetic wave, signal source is modulated to be sent out by antenna.

6. the system as claimed in claim 1, it is characterised in that：Persons falling in water locator is the Big Dipper and AIS bimodulus devices, the Big Dipper Location data is transferred to command centre's server by big-dipper satellite and satellite communication link, and AIS location datas are carried by AIS ship Base station is transferred to command centre's server, is positioned using AIS under normal condition, if AIS positioning failures, directly fixed by the Big Dipper Position.

7. system as claimed in claim 6, it is characterised in that：Persons falling in water locator includes big-dipper satellite locating module, AIS Module, location data processing module, Anneta module and power management module.