CN211455291U - Bus video monitoring system based on GPS navigation system - Google Patents

Bus video monitoring system based on GPS navigation system Download PDF

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Publication number
CN211455291U
CN211455291U CN201921051785.XU CN201921051785U CN211455291U CN 211455291 U CN211455291 U CN 211455291U CN 201921051785 U CN201921051785 U CN 201921051785U CN 211455291 U CN211455291 U CN 211455291U
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China
Prior art keywords
module
vehicle
gesture recognition
recognition module
gps
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Expired - Fee Related
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CN201921051785.XU
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Chinese (zh)
Inventor
张俊
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Shenzhen Yitong Changda Technology Development Co ltd
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Shenzhen Yitong Changda Technology Development Co ltd
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Priority to CN201921051785.XU priority Critical patent/CN211455291U/en
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Publication of CN211455291U publication Critical patent/CN211455291U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a bus video monitor system based on GPS navigation relates to an intelligent bus. The system comprises a cloud server, a power supply module, a GPS transmitter, a GPS receiver, a microprocessor, a camera, a temperature detection module, a storage module, a gesture recognition module, an early warning module and an alarm; the position sensing module comprises a position signal transmitter arranged on a safety hammer of the vehicle, a position signal receiver arranged on a safety hammer fixing seat and a signal converter used for converting signals received by the position signal receiver into electric signals; the storage alarm comprises a vehicle event data recorder arranged at the rear end of the vehicle and an early warning device used for receiving the electric signals sent by the signal converter and giving early warning to a driver. Under gesture recognition module, position sensing module and speech recognition module's combined action, the utility model discloses realization early warning function that can be fine.

Description

Bus video monitoring system based on GPS navigation system
Technical Field
The utility model relates to a monitored control system of vehicle, specific bus video monitored control system based on GPS navigation that says so.
Background
The bus, as a modern common public transport means, sometimes encounters some emergency situations, when the existing bus encounters an emergency situation, the real-time monitoring function is poor, the capability of actively identifying whether the bus is in a safe driving state is poor, so that improvement is necessary,
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the weak point of background art, and provide a bus video monitor system based on GPS navigation.
In order to realize the purpose, the technical scheme of the utility model is that: the utility model provides a bus video monitor system based on GPS navigation which characterized in that: the system comprises a cloud server, a power supply module, a GPS transmitter, a GPS receiver, a CPU (central processing unit) processor, a network camera, a storage module, a position sensing module, a gesture recognition module and a voice recognition module;
the power supply module is a solar battery or a vehicle-mounted battery and is used for supplying power to the GPS transmitter, the CPU, the network camera, the storage module, the position sensing module, the gesture recognition module and the voice recognition module;
the network camera comprises a front camera which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear camera which is arranged at the rear end of the vehicle and is used for shooting passengers;
the gesture recognition module comprises a front gesture recognition module and a rear gesture recognition module, wherein the front gesture recognition module is connected with the front camera and used for converting the specific driver gestures collected on site into electric signals, and the rear gesture recognition module is connected with the rear camera and used for converting the abnormal gestures collected on site into electric signals;
the voice recognition module comprises a front voice module which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear voice module which is arranged at the rear end of the vehicle and is used for converting high-decibel voice collected on site into an electric signal;
the position sensing module comprises a position signal transmitter arranged on a safety hammer of the vehicle and a position signal receiver arranged on a safety hammer fixing seat;
the storage module comprises a vehicle event data recorder arranged at the rear end of the vehicle and an early warning device used for receiving the electric signal sent by the position sensing module and giving an early warning to the driver;
the CPU processor is arranged on the vehicle and used for receiving the electric signals sent by the gesture recognition module and the voice recognition module and sending the electric signals through the GPS transmitter;
the cloud server is installed on a station main station and receives the electric signal sent by the GPS transmitter through the GPS receiver.
In the above technical solution, the position signal transmitter is a bluetooth transmitter or an infrared transmitter, and the position signal receiver is a bluetooth receiver or an infrared receiver.
In the above technical solution, the gesture recognition module is one of a TOF gesture recognition group, an Omek gesture recognition system and a LeapMotion gesture recognition system.
The utility model discloses a gesture recognition module can be used for judging whether safe of driver and passenger's action, and position sensing module can prevent that the safety hammer from running off, and then guarantees that the safety hammer is available when proruption dangerous situation, and voice recognition module is used for discerning driver or passenger's pronunciation, consequently, under gesture recognition module, position sensing module and voice recognition module's combined action, the utility model discloses realization early warning function that can be fine.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
In the figure, 1-a cloud server, 2-a power supply module, 3-a GPS transmitter, 4-a GPS receiver, 5-a CPU processor, 6-a network camera, 8-a position sensing module, 9-a gesture recognition module and 10-a voice recognition module.
Detailed Description
The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings, which are not intended to limit the present invention, but are merely exemplary. While the advantages of the invention will be clear and readily appreciated by the description.
With reference to the accompanying drawings: the utility model provides a bus video monitor system based on GPS navigation which characterized in that: the system comprises a cloud server 1, a power module 2, a GPS emitter 3, a GPS receiver 4, a CPU (central processing unit) processor 5, a network camera 6, a storage module, a position sensing module 8, a gesture recognition module 9 and a voice recognition module 10;
the power module 2 is a solar battery or a vehicle-mounted battery and is used for supplying power to the GPS emitter 3, the CPU 5, the network camera 6, the storage module, the position sensing module 8, the gesture recognition module 9 and the voice recognition module 10;
the network camera 6 comprises a front camera which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear camera which is arranged at the rear end of the vehicle and is used for shooting passengers;
the gesture recognition module 9 comprises a front gesture recognition module connected with the front camera and used for converting the specific driver gestures collected on site into electric signals, and a rear gesture recognition module connected with the rear camera and used for converting the abnormal gestures collected on site into electric signals;
the voice recognition module 10 comprises a front voice module which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear voice module which is arranged at the rear end of the vehicle and is used for converting high-decibel sound acquired on site into an electric signal;
the position sensing module 8 comprises a position signal transmitter arranged on a safety hammer of the vehicle and a position signal receiver arranged on a safety hammer fixing seat;
the storage module comprises a vehicle event data recorder arranged at the rear end of the vehicle and an early warning device used for receiving the electric signal sent by the position sensing module and giving an early warning to the driver;
the CPU 5 is arranged on the vehicle and is used for receiving the electric signals sent by the gesture recognition module 9 and the voice recognition module 10 and sending the electric signals through the GPS transmitter 3;
the cloud server 1 is installed on a station main station and receives an electric signal sent by the GPS transmitter 3 through the GPS receiver 4.
In the above technical solution, the position signal transmitter is a bluetooth transmitter or an infrared transmitter, and the position signal receiver is a bluetooth receiver or an infrared receiver.
During actual work, cloud ware 1, power module 2, GPS transmitter 3, GPS receiver 4, CPU treater 5, network camera 6, storage module, position sensing module 8, gesture recognition module 9, speech recognition module 10 are prior art, the utility model discloses adopt above-mentioned current product to realize the real time monitoring function.
Specifically, the cloud server may adopt a server provided by an aribab company or an Tencent company, the power module may be a dc power supply (such as a solar battery) installed in addition, as a preferred scheme, the power module may also be a vehicle-mounted power supply, the GPS transmitter 3 and the GPS receiver 4 may adopt an infrared transmitter based on a high-resolution map or a hectometre map (or may adopt a bluetooth transmitter or a transmitter based on a WIFI network), the CPU processor 5 may adopt a high-pass or hai processor, and the network camera 6 (including a front camera and a rear camera) may adopt a high-definition network camera for hai kangwei vision.
The front voice module can be a microphone (with a loudspeaker) arranged at the front section of the vehicle, the front voice module can be arranged on one side of the vehicle far away from passengers, and the rear voice module can be a microphone (only the rear end of the vehicle needs to be additionally provided with a plurality of microphones at the moment).
The early warning device can adopt a spy tiger early warning device and can also adopt a common buzzer.
In actual work, as a preferred scheme, the gesture recognition module 9 (including a front gesture recognition module and a rear gesture recognition module) may be one of a TOF gesture recognition group, an Omek gesture recognition system, and a leapfunction gesture recognition system.
Other parts not described belong to the prior art.

Claims (3)

1. The utility model provides a bus video monitor system based on GPS navigation which characterized in that: the system comprises a cloud server (1), a power module (2), a GPS transmitter (3), a GPS receiver (4), a CPU (central processing unit) processor (5), a network camera (6), a storage module, a position sensing module (8), a gesture recognition module (9) and a voice recognition module (10);
the power supply module (2) is a solar battery or a vehicle-mounted battery and is used for supplying power to the GPS transmitter (3), the CPU (5), the network camera (6), the storage module, the position sensing module (8), the gesture recognition module (9) and the voice recognition module (10);
the network camera (6) comprises a front camera which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear camera which is arranged at the rear end of the vehicle and is used for shooting passengers;
the gesture recognition module (9) comprises a front gesture recognition module which is connected with the front camera and used for converting the specific driver gestures collected on site into electric signals, and a rear gesture recognition module which is connected with the rear camera and used for converting the abnormal gestures collected on site into electric signals;
the voice recognition module (10) comprises a front voice module which is arranged at the front end of the vehicle and corresponds to the position of a driver, and a rear voice module which is arranged at the rear end of the vehicle and is used for converting high-decibel voice collected on site into an electric signal;
the position sensing module (8) comprises a position signal transmitter arranged on a safety hammer of the vehicle and a position signal receiver arranged on a safety hammer fixing seat;
the storage module comprises a vehicle event data recorder arranged at the rear end of the vehicle and an early warning device used for receiving the electric signal sent by the position sensing module and giving an early warning to the driver;
the CPU processor (5) is arranged on the vehicle and is used for receiving electric signals sent by the gesture recognition module (9) and the voice recognition module (10) and sending the electric signals through the GPS transmitter (3);
the cloud server (1) is installed on a station main station and receives an electric signal sent by the GPS transmitter (3) through the GPS receiver (4).
2. The bus video monitoring system based on the GPS navigation system as claimed in claim 1, wherein: the position signal transmitter is a Bluetooth transmitter or an infrared transmitter, and the position signal receiver is a Bluetooth receiver or an infrared receiver.
3. The bus video monitoring system based on the GPS navigation system as claimed in claim 2, wherein: the gesture recognition module (9) is one of a TOF gesture recognition group, an Omek gesture recognition system and a Leapmotion gesture recognition system.
CN201921051785.XU 2019-07-05 2019-07-05 Bus video monitoring system based on GPS navigation system Expired - Fee Related CN211455291U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921051785.XU CN211455291U (en) 2019-07-05 2019-07-05 Bus video monitoring system based on GPS navigation system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921051785.XU CN211455291U (en) 2019-07-05 2019-07-05 Bus video monitoring system based on GPS navigation system

Publications (1)

Publication Number Publication Date
CN211455291U true CN211455291U (en) 2020-09-08

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921051785.XU Expired - Fee Related CN211455291U (en) 2019-07-05 2019-07-05 Bus video monitoring system based on GPS navigation system

Country Status (1)

Country Link
CN (1) CN211455291U (en)

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20200908

Termination date: 20210705

CF01 Termination of patent right due to non-payment of annual fee