搜救设备器械
02-报道称,乌克兰正在疏散受伤士兵,将他们装上大型无人机——这可能是第一次战场_1_1_translate
01-Are ‘walking blood banks’ coming to a field hospital near you?
01-“步行血库”会在你附近的野战医院出现吗_1_1_translate
02-Ukraine is evacuating wounded soldiers by loading them onto large drones, in what is likely a battlefield first, report says
03-基于北斗+装甲救护车的地面战场伤员精准搜救应用研究_1_9_translate
03-The Application Study on Accurately Search&Rescue of the Wounded on the land battlefield base on “Beidou + Armored ambulance”
05-基于战场创伤的快速加压止血给药及微系统设计_1_10_translate
09-智能传感灯在战场救援中的应用_1_2_translate
04-基于图像的外科伤口感染识别的机器学习方法_1_10_translate
05-Rapid Pressure Hemostatic Drug Delivery and Microsystem Design Based on Battlefield Trauma
08-CSAR-- 战斗搜索与救援
09-Application of the intelligent sensor lamp in battlefield rescue
04-Machine Learning Approaches for the Image-Based Identification of Surgical Wound Infections Scoping Review
10-Successful treatment of endotracheal Critical Care Open Access intubation-related lip pressure injury using a self-developed fixation device
10-自制固定装置成功治疗气管内危重重症开放通道插管相关唇压损伤_1_3_translate
06-Automated Prediction of Photographic Wound Assessment Tool in Chronic Wound Images
07-战斗搜索与救援维持和现代化努力
06-慢性伤口图像中摄影伤口评估工具的自动预测_1_10_translate
入侵者系统 (RA-1)-冲压空气战术降落伞系统
军用急救箱:历史、演变和必备物品
用于伤亡疏散的无人机系统需要做什么
-
+
首页
09-Application of the intelligent sensor lamp in battlefield rescue
<p><a href="https://doi.org/10.1016/j.asjsur.2023.04.049">Asian Journal of Surgery 46 (2023) 4051</a>e<a href="https://doi.org/10.1016/j.asjsur.2023.04.049">4052</a></p><p><img src="/media/202408//1724856372.476525.jpeg" /></p><p>Contents lists available at <a href="https://www.sciencedirect.com/science/journal/10159584">ScienceDirect</a></p><p>Asian Journal of Surgery</p><p>journal homepage: <a href="https://www.e-asianjournalsurgery.com">www.e-asianjournalsurgery.com</a></p><img src="/media/202408//1724856372.5357828.jpeg" /><p>Letter to Editor</p><p>Application of the intelligent sensor lamp in battlefield rescue</p><img src="/media/202408//1724856372.5837078.png" /><table><tr><td><p><img src="/media/202408//1724856372.6795268.png" /></p></td></tr></table><img src="/media/202408//1724856372.73404.png" /><p><a href="http://crossmark.crossref.org/dialog/?doi=10.1016/j.asjsur.2023.04.049&domain=pdf">check for updates</a></p><p>To the editor,</p><p>During field training and military operations, higher require- ments are put forward for field lighting due to the mobility of field rescue sites, the complexity of the environment and the urgency of time. In recent years, RFID has been mainly employed in various scenarios such as animal husbandry management system, traffic management, logistics and transportation, etc,<a href="#bookmark1">1</a>e<a href="#bookmark1">2</a>, with the advan- tages of strong mobility, large amount of information storage, high identification efficiency and high accuracy rate<a href="#bookmark1">3</a>. However, this technology hasn't been used in battlefield ambulances. Most battle- field scenes use flashlights and portable rescue lights for lighting, but these technologies still have shortcomings, short duration, low lighting brightness, thereby prolonging the rescue time and reducing the accuracy of operation (see <a href="#bookmark1">Fig. 1</a>).</p><p>We employed RFID technology in the lighting and developed a multi-functional intelligent sensor lamp, which could achieve the intelligence of people coming to light up and people going to light off through the reading distance predicted by the system, improve the concealment of the scene, and avoid exposure caused by long- term lighting. Intelligent sensor lamp was mainly composed of medical identity card and RFID identification terminal. Its working principle was that when the medical staff entered the ambulance range, the identity card of the medical staff received the wireless T signal sent by the identification terminal, and the microprocessor on the identity card analyzed the authenticity of the signal and sent a wireless F signal containing the category information of the med- ical staff. After the identification terminal received the wireless F signal sent by the medical identity card, analyzed, and determined the identity category of the medical staff, and intelligently turned on the corresponding lighting. After the identification terminal did not receive the F signal beyond the threshold time, it intelli- gently turned off the corresponding lighting area after a delay of some time.</p><p>Six experimenters were selected to verify the effectiveness of intelligent sensor lamps in field rescue sites from different time pe- riods, taking the field training ground of a military hospital as the experimental site. During the test, the effective distance of terminal recognition was 50e100 cm, which verified the effectiveness and sensitivity of the intelligent sensor lamp.</p><p>Although photovoltaic field LED shadowless lamps could play a role in field rescue sites where electric energy was limited<a href="#bookmark1">4</a>, they were easily exposed due to the large area of solar photovoltaic panel boxes, causing the danger of air attack. The design and devel- opment of an intelligent sensor lamp suitable for field scenes and various complex environments to maximize the saving of electrical</p><p>resources in the battlefield and reduce the exposure of the field environment, was the focus and a major challenge of the current research. The intelligent sensor lamp could automatically identify different tags to control the lights in different areas, small size, movable, automatically adjust the brightness according to the actual environment, have repeatable charging, low power con- sumption and power storage functions, and avoid unnecessary ca- sualties caused by fire loss caused by lack of power supply or wire traction in the complex environment of the field scene.</p><p>Funds</p><p>The Project of 900 TH Hospital of the Joint Logistics Support Force (NO.2021MS32).</p><p>Authors’ contributions</p><p>M.Lin and J. Wan were responsible for study design and writing. M. Yu and H. Zhao was involved in the study design and was responsible for scientific revision.J. Wan and M. lin was responsible for data collections and image painting. All authors read and approved the final manuscript.</p><p><img src="/media/202408//1724856372.820145.png" /></p><p>Fig. 1. Intelligent induction lamp</p><p>A Intelligent induction lamp. B structure diagram of intelligent induction lamp a. Night simulator b. Medical and nursing ID card c. Switch.</p><p><a href="https://doi.org/10.1016/j.asjsur.2023.04.049">https://doi.org/10.1016/j.asjsur.2023.04.049</a></p><p>1015-9584/© 2023 Asian Surgical Association and Taiwan Robotic Surgery Association. Publishing services by Elsevier B.V. This is an open access article under the CC BY-NC- ND license (<a href="http://creativecommons.org/licenses/by-nc-nd/4.0/">http://creativecommons.org/licenses/by-nc-nd/4.0/</a>).</p><p>Statement of competing interests</p><p>The authors declared no conflict of interest.</p><p>Acknowledgement</p><p>The authors thank the staffs from the Imaging Department at</p><p>900 Hospital of the Joint Logistics Team for their help.</p><p>References</p><p>1. <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref1">Ilie-Zudor E, Kemny Z, Blommestein FV, et al. A survey of applications and re-</a></p><p><a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref1">quirements of unique identification systems and RFID techniques. Comput Ind.</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref1">2011;62(3):227</a>e<a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref1">252</a>.</p><p><a id="bookmark1"></a>2. <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref2">Curtin J, Kauffman RJ, Riggins FJ. Making the 'MOST' out of RFID technology: a</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref2">research agenda for the study of the adoption, usage and impact of RFID. Inf</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref2">Technol Manag. 2007;8(2):87</a>e<a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref2">110</a>.</p><p>3. <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref3">Curtin J, Kauffman RJ, Riggins FJ. Making the 'MOST' out of RFID technology:a</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref3">research agenda for the study of the adoption, usage and impact of RFID. Inf</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref3">Technol Manag. 2007;8(2):87</a>e<a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref3">110</a>.</p><p>4. <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref4">Hu Junzhi, Xu Xinming, Du Shengmin. Development of photovoltaic LED shad-</a> <a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref4">owless lamp for field battle. Medical and Health Equipment. 2010;31(9):81</a>e<a href="http://refhub.elsevier.com/S1015-9584(23)00561-4/sref4">83</a>.</p><p>Meijiao Lin</p><p>Department of General Surgery, 900TH Hospital of Joint Logistics Support Force, Fujian Medical University, Fuzhou, Fujian, PR China E-mail address: <a href="mailto:mailtowangwenfjcom">297102376@qq.com</a>.</p><p>Meihong Yu Department of General Surgery, 900TH Hospital of Joint Logistics</p><p>Support Force (Dongfang Hospital), Fujian University of Traditional Chinese Medicine, Fuzhou, Fujian, PR China E-mail address: <a href="mailto:mailtowangwenfjcom">361201253@qq.com</a>.</p><p>Hu Zhao</p><p>Department of General Surgery, 900TH Hospital of Joint Logistics Support Force, Fujian Medical University, Fuzhou, Fujian, PR China E-mail address: <a href="mailto:mailtowangwenfjcom">zhaohubear@163.com</a>.</p><p>Jianyuan Wan*</p><p>900 Hospital of the Joint Logistics Team, General surgical nurse ,156 North Xi-er Huan Road, Fuzhou, Fujian, PR China</p><p>* Corresponding author. E-mail address: <a href="mailto:mailtowangwenfjcom">1485489359@qq.com</a> (J. Wan).</p><p>30 March 2023 Available online 22 May 2023</p>
刘世财
2024年8月28日 22:46
转发文档
收藏文档
上一篇
下一篇
手机扫码
复制链接
手机扫一扫转发分享
复制链接
Markdown文件
HTML文件
PDF文档(打印)
分享
链接
类型
密码
更新密码