CN215450455U - Multi-engine speedboat early warning system - Google Patents

Abstract

The utility model discloses a multi-engine yacht early warning system which comprises a data acquisition module, a CPU (central processing unit), a data transmission module, a signal coding module, an antenna, a positioning module, an image recognition module, an alarm module and a power management module, wherein the data acquisition module is connected with the CPU; the data acquisition module transmits acquired information data to the CPU processor, and the CPU processor transmits data information to the signal coding module through the data transmission module for coding; the signal coding module codes signals and then transmits the signals through an antenna; the CPU processor respectively controls the positioning module, the image recognition module and the alarm module. The utility model aims to provide the multi-engine yacht early warning system which is effective in identifying the multi-engine yacht, can actively early warn once being found, and has high safety, strong reliability and various functions.

Description

Multi-engine speedboat early warning system

Technical Field

The utility model relates to the technical field of waterborne ships, in particular to a multi-engine yacht early warning system.

Background

With the deep economic development of China, part of personnel in coastal areas adopt multi-engine yachts to smuggle or take some illegal activities, and administrative authorities strike the illegal smuggling or the illegal activities at sea strictly.

Because many engines yachts power is ten sufficient, and speed is very fast, and administrative authority administrative law enforcement ship speed catches up many engines yachts a bit of difficulty, causes to strike and pursues the unfavorable situation of these illegal activities, consequently, need effectively discern these many engines yachts, in case discover this many engines yacht, carry out strict punishment department.

The prior art is not very effective in identifying the multi-engine yachts, so that the recognition and early warning system for the multi-engine yachts is expected to be used for recognizing and early warning the yachts.

Chinese patent application No. 201220255361.7, application date: 31/05/2012, open day: day 12/05 2012, the patent names: the utility model provides a boats and ships image recognition early warning system, this utility model discloses a boats and ships image recognition early warning system belongs to shipping technical field on water. The system comprises a data acquisition subsystem, a data processing subsystem and a monitoring subsystem; the data acquisition subsystem comprises shipborne GPS equipment, an AIS terminal, a maritime affair mobile phone and a camera; the data processing subsystem comprises a GPS database server, a maritime communication GPS server, a maritime communication video server, a CCTV video server, a short message publishing server, an image recognition server, a Web server and a service database server; the monitoring subsystem comprises a central controller, a CCTV playing terminal, a maritime affair communication playing terminal and a three-dimensional image display terminal. The ship image recognition early warning system provided by the utility model can effectively improve traffic operation efficiency, reduce traffic jam, improve ship operation safety and ensure effective and timely development of on-water emergency rescue actions.

Although the above patent document discloses a ship image recognition early warning system, the ship image recognition early warning system is not suitable for recognizing multi-engine yachts, and is not effective enough for yacht recognition, and has weak safety, low reliability and low functionality.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model provides a multi-engine yacht early warning system which is effective in identifying multi-engine yachts, can actively early warn once being found, and has high safety, strong reliability and multiple functions.

In order to realize the purpose of the utility model, the following technical scheme can be adopted:

a multi-engine yacht early warning system comprises a data acquisition module, a CPU (central processing unit), a data transmission module, a signal coding module, an antenna, a positioning module, an image recognition module, an alarm module and a power management module;

the data acquisition module is used for acquiring the information of the multi-engine yacht; the CPU processor is used for controlling and processing the information of the multi-engine yacht; the data transmission module is used for transmitting data information; the signal encoding module is used for encoding a data signal; the positioning module is used for positioning the information of the multi-engine yacht; the image identification module is used for identifying the image information of the multi-engine yacht; the alarm module is used for alarming the information of the identified multi-engine yacht; the power supply module is used for supplying power to the CPU processor;

the data acquisition module transmits acquired information data to the CPU processor, and the CPU processor transmits data information to the signal coding module through the data transmission module for coding; the signal coding module codes signals and then transmits the signals through an antenna; the CPU processor respectively controls the positioning module, the image recognition module and the alarm module.

The CPU processor is a chip with model number ATSAME70Q 21.

The data acquisition module comprises a sensor, and the sensor is used for acquiring information of the multi-engine yacht.

The sensor comprises a camera module, and the camera module is used for acquiring image information of the multi-engine yacht.

The sensor comprises a laser range finder for detecting the multi-motor yacht distance information.

The image identification module is a chip with the model of NVIDIA Jetson Xavier NX.

The CPU processor includes an infrared distance sensor.

The CPU processor includes a binocular vision sensor.

The utility model has the beneficial effects that: 1) the data acquisition module is used for acquiring information and transmitting the acquired information to the CPU processor, and the CPU processor controls the multi-engine yacht to be identified and early warned, so that the intelligent degree is higher, and the identification effect is better; 2) the utility model identifies and detects the multi-engine yachts through multiple functions, so that the multi-engine yachts can be identified and early-warned more conveniently; 3) the utility model is safe and reliable, greatly reduces the labor cost and is suitable for general popularization.

Drawings

Fig. 1 is a block diagram of an early warning system for a multi-engine yacht according to an embodiment of the present invention.

Detailed Description

The following describes the present invention in further detail with reference to the drawings and embodiments of the present invention.

Example 1

Referring to fig. 1, the multi-engine yacht early warning system comprises a data acquisition module 1, a CPU processor 2, a data transmission module 3, a signal coding module 4, an antenna 5, a positioning module 6, an image recognition module 7, an alarm module 8 and a power management module 23;

the data acquisition module 1 is used for acquiring multi-engine yacht information; the CPU processor 2 is used for controlling and processing the information of the multi-engine yacht; the data transmission module 3 is used for data information transmission; the signal encoding module 4 is configured to encode a data signal; the positioning module 6 is used for positioning the information of the multi-engine yacht; the image identification module 7 is used for identifying the image information of the multi-engine yacht; the alarm module 8 is used for alarming the information of the identified multi-engine yacht; the power module 23 is used for providing power for the CPU processor;

the data acquisition module 1 transmits acquired information data to the CPU processor 2, and the CPU processor 2 transmits data information to the signal coding module 4 through the data transmission module 3 for coding; the signal coding module 4 codes the signal and transmits the signal through an antenna 5; the CPU processor 2 controls the positioning module 6, the image recognition module 7 and the alarm module 8, respectively.

In this embodiment, the CPU processor is preferably a chip with model number of ATSAME70Q 21.

In this embodiment, preferably, the image recognition module is a chip with a model number of NVIDIA Jetson Xavier NX.

In this embodiment, the data acquisition module 1 acquires information of the multi-engine yacht and transmits the acquired information to the CPU processor 2, the CPU processor 2 performs positioning detection on the information of the multi-engine yacht through the positioning module 6, the CPU processor 2 performs image recognition on the acquired information through the image recognition module 7, and once the multi-engine yacht is found, the CPU processor 2 controls the alarm module 8 to give an alarm and sends an early warning message to a remote control center through the antenna 5; when the remote control center receives the early warning information, the administrative department can be informed to carry out law enforcement examination in time, and meanwhile, the administrative department can be informed of the position information, the image information and the like of the multi-engine yacht, so that the law enforcement examination of the administrative department on the multi-engine yachts is facilitated.

In this embodiment, it is preferable that the data acquisition module 1 includes a sensor 11, and the sensor 11 is used for acquiring information of the multi-engine yacht.

In this embodiment, it is further preferable that the sensor 11 includes a camera module 111, and the camera module 111 is configured to acquire multi-engine yacht image information.

The camera module 111 can collect static images and dynamic images of the multi-engine yacht, image information is transmitted to the CPU processor 2 through the data collection module 1, the image is analyzed and identified by the CPU processor 2 through the image identification module 7, and once the multi-engine yacht is determined to be the multi-engine yacht, an alarm is given through the alarm module 8.

In this embodiment, it is further preferable that the sensor 11 includes a laser range finder 112, and the laser range finder 112 is configured to detect the multi-engine yacht distance information.

The laser range finder 112 can collect distance information of the multi-engine yacht, transmit the distance information to the CPU processor 2 through the data collection module 1, and the CPU processor 2 analyzes the distance information through the positioning module 6, so as to provide accurate position distance information for pursuing the multi-engine yacht.

In this embodiment, it is further preferable that the CPU processor 2 includes an infrared distance sensor 21.

In this embodiment, the CPU 2 may analyze the distance information of the multi-engine yacht through the infrared distance sensor 21, so as to accurately determine the distance information of the multi-engine yacht.

In this embodiment, it is further preferable that the CPU processor 2 includes a binocular vision sensor 22.

In this embodiment, the CPU processor 2 may perform positioning analysis on the multi-engine yacht through the binocular vision sensor 22, so as to accurately determine the position information of the multi-engine yacht.

Example 2

Referring to fig. 1, the difference from the above embodiment is that the CPU processor 2 of the present invention further includes a data storage module 24, where the data storage module 24 is used to store various information analyzed and processed by the CPU processor 2, and also can transmit the stored information through the antenna 5.

In this embodiment, preferably, the CPU processor 2 further includes an edge computing platform 9, where the edge computing platform 9 may further perform computing analysis on the information processed and analyzed by the CPU processor 2, and may also perform effective identification on the acquired image, that is, the identification on the information of the multi-engine yacht is more accurate, and effective assistance is performed on finding the multi-engine yacht more effectively.

The edge computing platform 9 is actually a hardware platform, and of course, the edge computing platform 9 may also be a chip with a model number of NVIDIA Jetson Xavier NX.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (8)

1. The utility model provides a multi-motor yacht early warning system which characterized in that: the system comprises a data acquisition module, a CPU (central processing unit), a data transmission module, a signal coding module, an antenna, a positioning module, an image recognition module, an alarm module and a power management module;

the data acquisition module is used for acquiring the information of the multi-engine yacht; the CPU processor is used for controlling and processing the information of the multi-engine yacht; the data transmission module is used for transmitting data information; the signal encoding module is used for encoding a data signal; the positioning module is used for positioning the information of the multi-engine yacht; the image identification module is used for identifying the image information of the multi-engine yacht; the alarm module is used for alarming the information of the identified multi-engine yacht; the power supply management module is used for providing power supply for the CPU processor;

the data acquisition module transmits acquired information data to the CPU processor, and the CPU processor transmits data information to the signal coding module through the data transmission module for coding; the signal coding module codes signals and then transmits the signals through an antenna; the CPU processor respectively controls the positioning module, the image recognition module and the alarm module.

2. The multi-motor yacht early warning system of claim 1, wherein: the CPU processor is a chip with model number ATSAME70Q 21.

3. The multi-motor yacht early warning system of claim 1 or 2, wherein: the data acquisition module comprises a sensor, and the sensor is used for acquiring information of the multi-engine yacht.

4. The multi-motor yacht early warning system of claim 3, wherein: the sensor comprises a camera module, and the camera module is used for acquiring image information of the multi-engine yacht.

5. The multi-motor yacht early warning system of claim 4, wherein: the sensor comprises a laser range finder for detecting the multi-motor yacht distance information.

6. The multi-motor yacht early warning system of claim 1 or 2, wherein: the image identification module is a chip with the model of NVIDIA Jetson Xavier NX.

7. The multi-motor yacht early warning system of claim 1 or 2, wherein: the CPU processor includes an infrared distance sensor.

8. The multi-motor yacht early warning system of claim 7, wherein: the CPU processor includes a binocular vision sensor.

Images