应用于可穿戴微光成像系统的嵌入式平台设计
发布时间:2018-07-18 09:05
【摘要】:得益于嵌入式软硬件平台的迅猛发展,可穿戴式成像设备成为发展的新趋势,并对传统便携式成像设备产生了深刻的影响。以集成了TI DM3730双核异构处理器、SDRAM、NAND Flash及电源管理的Jorjin AP模块作为处理核心,接入低功耗、小型化微光探测器和高分辨率的OLED微显示器,设计构成了应用于微光环境下目标辅助观察的嵌入式平台。平台对并行视频信号做差分对转换,提高视频传输距离和稳定性的同时,简化了视频接口线数,创新性地强化了设备穿戴的灵活性。平台算法处理能力强、功耗低、重量轻,可无线通信、视频存储及电池供电,能有效提高使用者的夜间目标探测能力,在工业、科学、军事等领域有着广泛的应用前景。
[Abstract]:Thanks to the rapid development of embedded hardware and software platform, wearable imaging equipment has become a new trend of development, and has a profound impact on traditional portable imaging equipment. With the integration of TI DM3730 dual core heterogeneous processor SDRAMN NAND Flash and the Jorjin AP module of power management as the processing core, it can access low-power, miniaturized low-light detectors and high-resolution OLED microdisplays. The embedded platform is designed and applied to target aided observation in low light level environment. The platform makes differential pair conversion for parallel video signal, improves the distance and stability of video transmission, simplifies the number of video interface lines, and creatively strengthens the flexibility of device wear. The platform algorithm has the advantages of strong processing power, low power consumption, light weight, wireless communication, video storage and battery power supply. It can effectively improve the users' ability to detect night targets. It has a wide application prospect in industrial, scientific, military and other fields.
【作者单位】: 北京理工大学光电学院光电成像技术与系统教育部重点实验室;
【基金】:兵器预研支撑基金(62201070116) 国防预研(40405030202) 北京理工大学基础研究基金(20130442012) “光电成像与系统”教育部重点实验室2015开放基金(20150EIOF04)
【分类号】:TP368.33
,
本文编号:2131424
[Abstract]:Thanks to the rapid development of embedded hardware and software platform, wearable imaging equipment has become a new trend of development, and has a profound impact on traditional portable imaging equipment. With the integration of TI DM3730 dual core heterogeneous processor SDRAMN NAND Flash and the Jorjin AP module of power management as the processing core, it can access low-power, miniaturized low-light detectors and high-resolution OLED microdisplays. The embedded platform is designed and applied to target aided observation in low light level environment. The platform makes differential pair conversion for parallel video signal, improves the distance and stability of video transmission, simplifies the number of video interface lines, and creatively strengthens the flexibility of device wear. The platform algorithm has the advantages of strong processing power, low power consumption, light weight, wireless communication, video storage and battery power supply. It can effectively improve the users' ability to detect night targets. It has a wide application prospect in industrial, scientific, military and other fields.
【作者单位】: 北京理工大学光电学院光电成像技术与系统教育部重点实验室;
【基金】:兵器预研支撑基金(62201070116) 国防预研(40405030202) 北京理工大学基础研究基金(20130442012) “光电成像与系统”教育部重点实验室2015开放基金(20150EIOF04)
【分类号】:TP368.33
,
本文编号:2131424
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