The Excellent Application and Value of UWB Modules in the Field of Human Vehicle Positioning Safety
UWB modules have the advantages of high accuracy, anti-interference, and low power consumption in human vehicle positioning safety, and can be integrated with sensors and communication technologies to enhance safety performance. UWB (UltraWideband) modules have significant advantages in human vehicle positioning safety. The following is a detailed introduction:
High precision positioning ensures safety
Centimeter level precision positioning: UWB modules can achieve centimeter level high-precision positioning, which is crucial for the safety of human and vehicle positioning. In complex environments such as parking lots, vehicles can accurately find available parking spaces and park accurately, avoiding accidents such as scratches and collisions caused by inaccurate parking positions. For pedestrians, in densely populated areas such as stations, shopping malls, etc., high-precision positioning can accurately determine their location and prevent collisions with vehicles or other pedestrians.
Real time dynamic positioning: The UWB module can update the position information of people and vehicles in real time, ensuring that the monitoring system always keeps track of the latest position dynamics. During road driving, traffic management departments can monitor the real-time trajectory and speed of vehicles through UWB positioning data, detect abnormal driving behaviors such as speeding, illegal lane changes, etc. in a timely manner, and issue early warnings to reduce the occurrence of traffic accidents. For scenarios such as pedestrians crossing the road, real-time positioning allows vehicles to perceive the position and movement speed of pedestrians in advance and make reasonable avoidance decisions.
Strong anti-interference ability ensures stable positioning
Narrow pulse signal anti-interference: UWB modules use extremely narrow pulse signals for communication and positioning, which have strong anti-interference capabilities. In complex electromagnetic environments, such as urban centers with numerous wireless signal interference sources, UWB signals can effectively resist interference from other signals and maintain stable positioning accuracy. Compared to traditional positioning technologies, such as GPS, which may encounter signal obstruction and interference in areas with high-rise buildings, UWB modules have the advantage of anti-interference, which enables them to provide reliable support for human and vehicle positioning in various complex environments.
Multipath effect suppression: UWB signals will generate reflections and scattering when encountering obstacles during transmission, forming multipath effects. UWB modules can effectively suppress the impact of multipath effects through advanced signal processing technology, accurately identify and process direct signals, and ensure that positioning accuracy is not affected by multipath interference. In indoor environments such as parking lots, there are numerous obstacles around vehicles and pedestrians. The UWB module's characteristic ensures the stability and accuracy of the positioning system in complex environments.
Low power consumption extends device battery life
Intermittent working mode: The UWB module adopts an intermittent working mode, which can enter a low-power sleep state when positioning is not required, greatly reducing the energy consumption of the device. For vehicle positioning devices, low-power design can reduce the power consumption of the vehicle battery, extend the service life of the battery, and also avoid inconvenience caused by frequent charging of the device. For positioning devices carried by pedestrians, such as smart wearables, the low power consumption feature can extend the device's battery life, ensure that frequent charging is not required for a long time, and improve the convenience and practicality of device use.
Optimized power management: The UWB module integrates an optimized power management circuit, which can automatically adjust the power supply according to the working status of the device, further reducing power consumption. In practical applications, this means that human vehicle positioning devices can minimize energy consumption while ensuring the normal operation of positioning functions, achieving a perfect combination of energy conservation and efficient positioning.
Integrating multiple technologies to enhance security performance
Fusion with sensors: UWB modules can be integrated with other sensors such as cameras, radars, etc. to achieve more comprehensive human vehicle perception and positioning safety. For example, in autonomous driving scenarios, combining UWB positioning information with data from onboard cameras and radar can more accurately identify targets such as pedestrians and obstacles around the vehicle, make more precise driving decisions in advance, and effectively avoid collision accidents. For pedestrian positioning, integrating acceleration sensors can more accurately determine the pedestrian's movement status, such as whether they have fallen or are in a dangerous area, and promptly issue alerts and notify relevant personnel for rescue.
Integration with communication technology: The integration of UWB modules with communication technologies such as 5G can achieve fast transmission and sharing of positioning data. In intelligent transportation systems, UWB positioning data of vehicles can be transmitted in real-time to traffic management centers through 5G networks. Traffic management centers can adjust traffic flow in real-time based on this data, optimize road resource allocation, and improve traffic operation efficiency and safety. Meanwhile, pedestrians can also use positioning devices integrated with communication technology to quickly send distress signals and location information to the outside world in case of emergency, improving rescue efficiency.
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本文由雪飘梦飞转载自SKYLAB Official Website,原文标题为:The Excellent Application and Value of UWB Modules in the Field of Human Vehicle Positioning Safety,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
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品类
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无线模块标准
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芯片
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尺寸(mm)
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封装
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频率范围(GHZ)
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数据速率(Mbps)
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发射功率(dBm)
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传输距离(米)
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通讯接口
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供电电压(V)
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天线接口
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WG219
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WiFi模块
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IoT b/g/n
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ESP8266
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25.5*18*3.2
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SMD
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2.4-2.5
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72.2
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18
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100
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3,5,6,8
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3.3V
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1个IPEX/PCB
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模块标准IEEE 802.11
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频率范围(GHZ)
|
数据速率(Mbps)
|
WiFi接口
|
蓝牙标准
|
蓝牙接口
|
WG215
|
WiFi+蓝牙组合模块
|
ESP32
|
25.5*18*3.0
|
PCB/IPEX
|
SMD
|
b/g/n
|
2.4
|
150
|
UART
|
V2.1+EDR,BLE4.2
|
UART
|
选型表 - 天工测控 立即选型
【选型】交通信号灯高精度天工测控GNSS授时模块选型技巧
交通信号灯在一定程度上能够起到缓解交通压力的作用,而作用其中的GNSS授时模块才是主力高效,准确,实时的对城市交通信号灯进行统一授时的大功臣。本文天工测控就以北斗授时模块为切入点,简单介绍一下交通信号灯授时模块的选型要点。
天工测控BLE蓝牙模块选型表
天工测控针对物联网小数据,近距离的数据传输、智能控制等应用场景研发推出的BLE4.0/4.2/5.0低功耗蓝牙模块,功耗低,接收灵敏度高,传输距离远,支持UART/TWI通信协议,性能稳定可靠,支持二次开发,尺寸小巧,易于集成,产品能较好的嵌入到客户产品中,同时满足客户对蓝牙产品再次快速编程需求
产品型号
|
品类
|
标准协议
|
尺寸(mm)
|
工作模式
|
接收灵敏@1Mbps(dBm)
|
发射功率(dBm)
|
Flash(KB、MB)
|
RAM(KB)
|
广播功耗(100ms 间隔)(uA)
|
连续传输功耗(20ms 间隔)(uA)
|
深度睡眠功耗(uA)
|
待机状态功耗(uA)
|
最大广播距离(米)
|
接口
|
天线
|
SKB360
|
BLE蓝牙模块
|
BLE4.0
|
17.4*13.7*1.9
|
主,从,主从一体
|
-93
|
+4
|
256K
|
16K
|
270
|
1180
|
0.3
|
2.5
|
50
|
UART/PWM/GPIO/I²C
|
PCB/External
|
选型表 - 天工测控 立即选型
5G Cellular Routers Empowering the Development of Autonomous Driving Technology
With the rapid development of technology, autonomous driving technology has become a star in the field of intelligent transportation, and the connected vehicle ecosystem, as a bridge for information exchange between vehicles, roads, and pedestrians, is crucial for the widespread application of autonomous driving technology. In this context, the emergence of 5g cellular router has injected new vitality into the development of autonomous driving technology, providing a more efficient and secure wireless application solution for the connected vehicle ecosystem.
天工测控推出满足无线AP路由器的无线路由WiFi模块,产品性能稳定,提供技术支持帮助客户创新研发
立足市场需求,且拥有WiFi软、硬件研发团队的天工测控研发推出的无线路由WiFi模块SKW77,SKW92A,SKW92B,SKW95,SKW99,SKW97,SKW78,SKW93A,SKW100均能满足性能稳定、使用方便能够提供技术支持且性价比高等特性。
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Ignion可支持多协议、宽频段的物联网天线方案设计,协议:Wi-Fi、Bluetooth、UWB、Lora、Zigbee、2G、3G、4G、5G、CBRS、GNSS、GSM、LTE-M、NB-IoT等,频段范围:400MHz~10600MHz。
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