Science Letters:Blind spot detection using vision for automotive applications

This paper describes a vision-based system for blind spot detection (BSD) in intelligent vehicle applications. A camera is mounted in the lateral mirror of a car with the intention of visually detecting cars that are located in the so-called blind spot and cannot be perceived by the vehicle driver. The detection of cars in the blind spot is carried out using computer vision techniques, based on optical flow and a double-stage data clustering technique for robust vehicle detection.

In-Vehicle Stereo Vision Systems with Improved Ant Colony Optimization Based Lane Detection: A Solution to Accidents Involving Large Goods Vehicles Due to Blind Spots

This paper presents an in-vehicle stereo vision system as a solution to accidents involving large good vehicle due to blind spots using Nigeria as a case study. In this paper, a stereo-vision system was attached to the front of Large Good Vehicles (LGVs) with a view to presenting live feeds of vehicles close to the LGV vehicles and their distance away. The captured road images using the stereo vision system were optimized for effectiveness and optimal vehicle maneuvering using a modified metaheuristics algorithm called the simulated annealing Ant Colony Optimization (saACO) algorithm. The concept of simulated annealing is strategies used to automatically select the control parameters of the ACO algorithm. This helps to stabilize the performance of the ACO algorithm irrespective of the quality of the lane images captured in the in-vehicle vision system. The system is capable of notifying drivers through lane detection techniques of blind spots. This technique enables the driver to be more aware of what surrounds the vehicle and make decisions early. In order to test the system, the stereo-vision device was mounted on a Large good vehicle, driven in Zaria (a city in Kaduna state in Nigeria), and data were in the record. Out of 180 events, 42.22% of potential accident events were caused by Passenger Cars, while 27.22%, 18.33% and 12.22% were caused by two-wheelers, Large Good Vehicles and road users, respectively. In the same vein, the in-vehicle lane detection system shows a good performance of the saACO-based lane detection system and gives a better performance in comparison with the standard ACO method.

Blind Spot Obstacle Detection from Monocular Camera Images with Depth Cues Extracted by CNN

The images from a monocular camera can be processed to detect depth information regarding obstacles in the blind spot area captured by the side-view camera of a vehicle.The depth information is given as a classification result“near”or“far”when two blocks in the image are compared with respect to their distances and the depth information can be used for the purpose of blind spot area detection.In this paper,the proposed depth information is inferred from a combination of blur cues and texture cues.The depth information is estimated by comparing the features of two image blocks selected within a single image.A preliminary experiment demonstrates that a convolutional neural network(CNN)model trained by deep learning with a set of relatively ideal images achieves good accuracy.The same CNN model is applied to distinguish near and far obstacles according to a specified threshold in the vehicle blind spot area,and the promising results are obtained.The proposed method uses a standard blind spot camera and can improve safety without other additional sensing devices.Thus,the proposed approach has the potential to be applied in vehicular applications for the detection of objects in the driver’s blind spot.

Eliminating Blind Spots on Gender in Public Policy CAI YIPING

Just when Meng Meilian felt she couldn’t go on she was lucky enough to become one of the first in her village to be granted a poverty-relief loan. Although the lack of laborers in Meng’s family made the risk of return greater than for other applicants, it was clearly stipulated in the county’s poverty relief policy that, all other things being equal, women in poverty should have priority.

基于Voronoi图的无线传感网络覆盖盲区检测方法

传感网络的空洞暴露程度较少,在检测网络覆盖情况时更容易出现误差,影响盲区的检测效果。为此,提出基于Voronoi图的无线传感网络覆盖盲区检测方法。根据节点分布关系推测无线传感网络覆盖情况,在Voronoi图的指导下排除已覆盖区域,获取具备检测条件的未覆盖无线传感网络空洞。计算网络空洞的暴露程度和节点能量,作为特征样本输入粒子群分离器中,根据分类器的输出结果,实现无线传感网络覆盖盲区检测。仿真结果表明,所提方法不同覆盖盲区数量下的检测时长低于0.2 s、不同节点数量下的检测能耗低于20 J、不同空洞圆心距下的覆盖盲区差异度最高为0.24,证明所提方法具有较好的无线传感网络覆盖盲区检测效果。

一种基于YOLOv8的轻量化盲区检测网络

近年来,全国的交通安全形势日益严峻,交通事故频繁发生,人员伤亡和财产损失惨重。其中,因视觉盲区受限引起的人车碰撞事故最为常见,由于传感器的高昂造价和在盲区检测方面的研究应用较少,预防此类事故主要依靠司机驾驶经验。针对盲区检测和研究的不足,提出一种简洁高效的轻量化盲区检测网络BsDet和BsDet+。轻量化网络以最先进的YOLOv8为基础,结合其他YOLO网络的优点,在头部和颈部进行了轻量化重构,在特征提取部分使用改进的深度可分离卷积降低网络的参数量与计算量。在特定层使用更大的卷积核来扩大感受野,进一步提高网络的检测精度。在构建的盲区数据集进行实验,实验结果表明,BsDet拥有97.72%的mAP和300.76 f/s的FPS,BsDet+的mAP和FPS分别为99.35%和181.31 f/s,相比于SOTA方法,提高了36.8%的检测速度和1.44%的mAP。两种网络分别在树莓派、安卓手机和便携式计算机上进行部署与测试,结果显示在任何平台上,BSDet均拥有最高的检测速度。BsDet和BsDet+可适用于不同性能的硬件与检测需求,具有设备要求低、准确率高、速度快等特点,不仅为轻量化设计提供了借鉴,也能够有效改善基于视觉的辅助驾驶技术。

基于3种方法的福建天气雷达探测环境评估与分析

【目的】我国新一代天气雷达组网探测仍然存在较大盲区,特别是对低层大气的覆盖情况缺少评估。该文旨在研究福建省雷达对低层大气的探测情况,以辅助补盲雷达站址选择。【方法】利用SRTM高分辨率地形数据,采用3种方法,对福建省8部SA天气雷达0.5~3.4°仰角的探测环境,从单站范围、雷达探测重叠度、组网覆盖范围等方面进行分析,其中方法1、方法2、方法3分别基于射线海拔高度不同、射线与地形高度差不同、馈源以上高度不同,对一定高度区间的雷达覆盖情况进行评估。【结果】从业务角度出发评估低层大气探测环境,方法1和方法2的评估效果更优,以方法2为例,分析在盲区新建雷达的补盲效果,结果表明盲区主要位于闽中、闽西南和闽北地区。【结论】补盲雷达若位于靠近福建省界的闽西南区域,能最大程度新增0~2 km高度雷达波束覆盖面积,经计算得出新增面积可达15 000 km2以上。

交叉口驾驶员视野盲区路侧预警系统研究

交叉口中建筑物、高架桥墩、树木等对驾驶员视野的遮挡,使其出现视野盲区,造成误判易导致交通事故发生,影响交通安全。因此,对驾驶员视野盲区预警系统的研究尤为重要。本文主要依据驾驶员视野盲区障碍物识别、信息收集、处理及分析,对其视野盲区路侧预警系统进行构建、设计和功能开发,从而达到提高驾驶员视野盲区路侧预警水平,减少道路交通事故的目的。

钢结构焊缝内部缺陷的超声波探伤检测技术应用

阐述焊缝内部缺陷对钢结构安全的影响,超声波探伤技术在焊缝检测中的优势,焊缝缺陷及超声波探伤技术中的TOFD检测和UT检测特点和应用,包括检测厚度、检测盲区、表面检测策略。

等值反磁通瞬变电磁法在浅部岩溶探测中的应用研究——以惠州市龙门县某地区为例

传统瞬变电磁法受关断时间和互感的过渡过程影响,存在较大浅部盲区;新近发展迅速的等值反磁通瞬变电磁法从理论和仪器上实现了纯二次场的观测,大大提高了浅部区域的探测精度。为研究等值反磁通瞬变电磁法在100 m以浅岩溶探测的应用效果,以惠州市龙门县某岩溶发育区为靶区,开展了方法有效性研究,取得主要成果与结论:(1)界定的土石界面和圈定的岩溶发育区与已知钻孔揭露情况吻合较好,验证了基于等磁反磁通瞬变电磁法在100 m以浅岩溶探测的有效性;(2)反映区内岩溶具有一定连通性,岩溶大小约1~20 m,岩溶主要发育于20~40 m及60 m以下埋深。研究结果一方面有效圈定了研究区100 m以浅岩溶发育区,对后续桥梁工程的安全建设具有重要意义;另一方面等值反磁通瞬变电磁法具有施工便捷、采集高效、抗干扰强等优势,未来有望在城市浅部空间探测领域实现更大作为。

山区公路弯道盲区会车安全提醒系统

为了解决山区公路弯道盲区会车时存在的安全隐患问题,设计了一种基于机器视觉的弯道会车交通安全辅助系统。在弯道两侧安装摄像头来检测进入弯道的车辆,在车辆检测方面,采用先进的YOLOv8进行车辆识别,并将检测到的信息传输至弯道对侧的LED显示屏上进行显示,弯道两侧的LED显示屏通过光纤进行数据的交换。此外,还利用语音播报器提供弯道对侧来车的语音信息,提醒驾驶员注意前方的对向车辆。

全程多维度无盲点干预对急诊中毒患者压力性损伤及睡眠的效果研究

目的:以急诊重症监护室(EICU)急诊中毒患者为研究对象,实施全程多维度无盲点干预,探求该护理模式对压力性损伤及睡眠的护理价值。方法:选取2021年2月至2023年2月福建医科大学附属泉州第一医院EICU收治的急诊中毒患者60例作为研究对象,按照随机数字表法分为对照组和观察组,每组30例。对照组采取常规护理,观察组应用全程多维度无盲点干预。对比2组患者压力性损伤情况,干预前后匹兹堡睡眠质量指数(PSQI)、多导睡眠监测指标、不良睡眠发生情况。结果:在压力性指标、不良睡眠情况发生率、睡眠质量、睡眠监测等观察指标上,干预后观察组均更优,差异有统计学意义(P<0.05)。结论:对EICU急诊中毒患者实施全程多维度无盲点干预可预防压力性损伤,降低皮损以及睡眠障碍等对患者的影响,能促进较为平稳和优质的睡眠改善,利于患者疾病休养和尽早转归。

汽车盲区检测系统性能法规的对比分析

文章主要分析和对比国内外汽车盲区检测系统性能法规的区别,即国外UN R158法规与国内GB/T 39265—2020法规的区别。由于UN R158偏重于检测倒挡激活后的后方盲区,GB/T 39265—2020偏重于检测车辆前方、左方、右方的盲区,多应用于低速行驶和右转盲区工况检测,且两者的试验要求各有不同,若使二者相结合,就可以实现全方位的障碍物检测和盲点检测BSD功能,能进一步保障驾驶员的行车安全。

基于前视摄像头和角雷达的盲区报警制动系统研究

为了探索以更智能、更方便为目的的盲区监测提醒制动系统,结合前视摄像头和超声波配合仪表显示系统进行盲区行人和车辆报警及提醒。探索一种基于前视摄像头,在超声波和环视的基础上增加角雷达盲区报警制动系统的研究,且该方案可作为后续车型功能开发设计参考方案。该方案硬件可以共用,只需改动软件部分即可实现。结果显示,基于前视摄像头和角雷达的盲区报警制动系统可以及时报警或制动,提醒驾驶员注意盲区目标,进而避免交通事故发生。

A cooperative control strategy of resistance spot welding process by combining the constant current control with the DRC method

The modeling control method based on the dynamic resistance characteristics of good nuggets, that is the DRC method, is an improvement on the dynamic resistance threshold method for the quality control of resistance spot welding. But there is still a control blind area in the initial four cycles. For this reason, the quality of every weld nugget could not be fully ensured. Thus a new fuzzy cooperative control method is put forward. It uses a multi-information time-control mechanism by combining the constant current control technology with the DRC method in a relay way. This whole-process control strategy has led to a good control effect and produced the dual-identical results in the weld nugget quality and the welding time.

基于三相激励长输原油管道全方向MFL检测方法研究

针对传统漏磁检测(magnetic flux leakage,MFL)在管道轴向裂纹的检测灵敏度不高的问题,提出基于三相激励长输原油管道的全方向MFL检测方法.全方向MFL检测将漏磁场变化率、外部激励强度变化模型和三相线圈磁化模型融合,用三相激励方式磁化管道,分析管道漏磁场变化率、外部激励强度变化的影响因素,设计基于三相激励管道检测装置,进行管道检测试验,通过仿真与试验对比,该装置可有效识别轴向裂纹、周向裂纹与45°裂纹,识别精度达95%,比传统漏磁检测装置具备更高的灵敏度,对管道无盲点检测具有一定的参考价值.

相控阵天线的耦合激励系数及盲点研究

为了深入探讨相控阵天线单元间的相互耦合,以阵列天线单元S参数为基础,分别分析了振子形式辐射单元和缝隙形式辐射单元组成阵列的辐射单元之间的耦合关系,并利用天线单元的耦合激励系数分析计算了阵中单元的有源辐射方向图。对阵列中每个单元的耦合激励系数的幅度和相位进行了分析,发现平行排列单元和轴向排列单元的耦合激励系数的相位存在差异,平行排列时激励单元与相邻单元间的相位相差较小,这种差异是阵列产生盲点的主要因素。

固体物理素养与大学物理教学中的知识盲点

本文基于笔者多年大学物理及固体物理的教学经验以及观摩年轻教师大学物理课堂的心得体会,概括了因任课教师固体物理知识的缺乏而在大学物理教学中常出现的几个知识盲点,分析了产生这些概念上的模糊甚至科学性错误的根源,并从固体物理层面阐述正确的理解或表达.

社工站项目评估中的盲区假说与云评估模式建构

我国将于“十四五”末实现乡镇(街道)社工站全覆盖,社工站将纳入重点工作评估与基层绩效考核。基于对H省Z市D区政府购买社工站评估项目的参与式观察以及评估盲区假说的分析视角,研究发现当下社工站项目评估仍存在忽视文本材料的片面性、轻视专家评估的模糊性、无视对购买方的问责等评估盲区,一定程度上损伤了评估的全面性、准确性和公正性。评估盲区客观上由评估时间的临时性和评估空间的割裂性造成,主观上由政强社弱的合作关系导致。利用区块链理念和技术,建构社工站项目动态评估平台和云评估模式,进而通过技术赋权来重构评估时空线以及调适失衡的政社关系是减少评估盲区的有效方法。

基于双激光雷达的带式输送机煤流量检测系统

带式输送机煤流运输过程中由于堆积角的存在,使得煤流形状呈近似三角形,易出现检测盲区。针对该问题,提出了一种基于双激光雷达的带式输送机煤流量检测系统。将2个单线激光雷达分别放置在带式输送机上方左右两侧,各测量半个区域内的煤流外轮廓特征点,通过融合算法对左右区域内的煤流外轮廓特征点进行融合,再通过最小二乘多项式拟合算法解算出整个区域内的煤流外轮廓,从而实现对煤流轮廓的无盲区测量。使用光电编码器实时检测输送带运行速度,采用梯形面积累计法计算煤流断面面积,采用面元积分法计算带式输送机的煤流量。现场试验结果表明:无煤料偏置时,单/双激光雷达扫描结果基本一致,系统测量误差为2%~3%,满足煤流量检测要求;有煤料偏置时,基于单激光雷达的系统误差较大,无法满足煤流量检测要求,而基于双激光雷达的系统测量误差依然能够保持在2%~3%。提出了单/双激光雷达选择判据,得出存在煤料偏置或大块煤料的工况下,基于双激光雷达的带式输送机煤流量检测系统更加适用。