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By Toradex 秦海
随着工业产品智能化发展,摄像头作为图像采集在嵌入式设备中需求越来越多,目前常见的摄像头接口有专用的Parallel Camera接口和MIPI CSI接口,以及USB/Ethernet Camera等采用USB, Ethernet等接口,本文就着重展示摄像头专用接口MIPI CSI在嵌入式Linux下的应用.
MIPI (Mobile Industry Processor Interface) 摄像头接口标准是由MIPI® Alliance Camera Working Group针对传统并行摄像头存在的问题提出的一个串行高速摄像头接口定义, 目前有MIPI CSI-2和MIPI-CSI-3两个协议定义,本文涉及的均为MIPI CSI-2协议接口, 目前已经从V1.0 发布发展到V1.3发布, D-PHY下传输带宽也从1Gbps/lane提高到2.5Gbps/lane, V1.3新引入的C-PHY则更高,关于MIPI
CSI详细说明请参考这里.
1). 准备
a). 本文所使用的硬件平台为Toradex 工业产品级Apalis i.MX6D和T30
ARM核心板模块,搭配Apalis Eva Board开发板和Apalis T30 Mezzanine 扩展卡
b). MIPI CSI-2摄像头使用基于OV5640的摄像头模块
c). Parallel Camera摄像头使用Toradex ACM摄像头(基于ADV7180)模块搭配监控摄像头
d). 软件使用Toradex官方发布的嵌入式Linux V2.5 Beta3发布
2). 物理连接示意图
3). Apalis i.MX6D
a). 模块支持两路Parallel Camera接口和一路MIPI CSI-2 V1.0接口(1-4 lane)
b). V2.5Beta3版本Linux image已经包含OV5640和ADV7180的驱动和相应的device tree patch,因此上电后系统可以直接识别摄像头设备/dev/video0(ADV7180)和/dev/video2(OV5640)
-----------------
root@apalis-imx6:~# dmesg |grep adv
[ 8.650491] adv7180 3-0021: no sensor pwdn pin available
[ 8.799108] mxc_v4l2_master_attach: ipu0:/csi0 parallel attached adv7180:mxc_
v4l2_cap0
root@apalis-imx6:~# dmesg |grep ov5640
[ 8.837746] ov5640_mipi 3-003c: request of ov5640_mipi_reset failed
[ 9.003448] mxc_v4l2_master_attach: ipu0:/csi1 parallel attached ov5640_mipi:
mxc_v4l2_cap2
[ 9.015727] camera ov5640_mipi is found
[ 10.675197] ov5640_set_virtual_channel: virtual channel=1
[ 98.019038] ov5640_set_virtual_channel: virtual channel=1
[ 98.421393] ov5640_set_virtual_channel: virtual channel=1
-----------------
c). 运行下面gstreamer pipeline测试MIPI CSI-2摄像头
-----------------
/* 640x480分辨率抓取并播放 framerate=90 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=0 fps-n=90 ! imxv4l2sink disp-width=640 disp-height=480
/* 720P分辨率抓取并播放 framerate=60 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=4 fps-n=60 ! imxv4l2sink disp-width=1280 disp-height=720
/* 1080P分辨率抓取并播放 framerate=15 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=5 fps-n=15 ! imxv4l2sink
-----------------
d). 分别对应的CPU占用率如下
-----------------
//640x480
CPU1 - 48%
CPU2 - 1%
//720P
CPU1 - 100%
CPU2 - 1%
//1080P
CPU1 - 100%
CPU2 - 1%
-----------------
d). 和Parallel Camera摄像头同时显示
./ 原生ipu driver无法支持两路camera同时显示,需要对image source code 打patch,然后按照这里的说明重新编译kernel 和 modules,并部署到Apalis
i.MX6模块.
./ 然后运行下面gstreamer pipeline来进行同时显示
-----------------
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=0 fps-n=30 ! imxv4l2sink device=/dev/video17 disp-width=640 disp-height=480 & gst-launch -vvv tvsrc device=/dev/video0 ! imxv4l2sink device=/dev/video16 disp-width=640 disp-height=480 axis-top=480
-----------------
./ 显示效果如下
./ 此时CPU占用率 ----------------- CPU1 60% CPU2 40% ----------------- 4). Apalis T30 a). 模块支持两路Parallel Camera接口和一路MIPI CSI-2 V1.0接口(1-4 lane) b). 手动加载驱动模块, 识别出 /dev/video0 (ADV7180)和/dev/video1(OV5640) ----------------- root@apalis-t30:~# modprobe videobuf2-memops root@apalis-t30:~# modprobe videobuf2-dma-nvmap root@apalis-t30:~# modprobe adv7180 root@apalis-t30:~# modprobe ov5640 root@apalis-t30:~# modprobe tegra_v4l2_camera ----------------- c). 运行下面gstreamer pipeline测试MIPI CSI-2摄像头 ----------------- /* 640x480分辨率抓取并播放 framerate=90 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=640, height=480, framerate=90/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink /* 1296x972分辨率抓取并播放 framerate=60 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=1296, height=972, framerate=60/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink /* 1920x1088分辨率抓取并播放 framerate=15 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=1920, height=1088, framerate=15/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink ----------------- d). 分别对应的CPU占用率如下 ----------------- //640x480 CPU1 - 85% CPU2 - 0% CPU3 - 0% CPU4 - 0% //720P CPU1 - 90% CPU2 - 70% CPU3 - 0% CPU4 - 0% //1080P CPU1 - 100% CPU2 - 60% CPU3 - 0% CPU4 - 0% ----------------- 5). 总结 随着ARM处理器性能越来越强大,高质量的摄像头解决方案的需求在嵌入式工业领域也会越来越广泛,MIPI CSI无疑是目前最好的方案之一,相信会有广阔的前景。
3). Apalis i.MX6D
a). 模块支持两路Parallel Camera接口和一路MIPI CSI-2 V1.0接口(1-4 lane)
b). V2.5Beta3版本Linux image已经包含OV5640和ADV7180的驱动和相应的device tree patch,因此上电后系统可以直接识别摄像头设备/dev/video0(ADV7180)和/dev/video2(OV5640)
-----------------
root@apalis-imx6:~# dmesg |grep adv
[ 8.650491] adv7180 3-0021: no sensor pwdn pin available
[ 8.799108] mxc_v4l2_master_attach: ipu0:/csi0 parallel attached adv7180:mxc_
v4l2_cap0
root@apalis-imx6:~# dmesg |grep ov5640
[ 8.837746] ov5640_mipi 3-003c: request of ov5640_mipi_reset failed
[ 9.003448] mxc_v4l2_master_attach: ipu0:/csi1 parallel attached ov5640_mipi:
mxc_v4l2_cap2
[ 9.015727] camera ov5640_mipi is found
[ 10.675197] ov5640_set_virtual_channel: virtual channel=1
[ 98.019038] ov5640_set_virtual_channel: virtual channel=1
[ 98.421393] ov5640_set_virtual_channel: virtual channel=1
-----------------
c). 运行下面gstreamer pipeline测试MIPI CSI-2摄像头
-----------------
/* 640x480分辨率抓取并播放 framerate=90 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=0 fps-n=90 ! imxv4l2sink disp-width=640 disp-height=480
/* 720P分辨率抓取并播放 framerate=60 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=4 fps-n=60 ! imxv4l2sink disp-width=1280 disp-height=720
/* 1080P分辨率抓取并播放 framerate=15 */
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=5 fps-n=15 ! imxv4l2sink
-----------------
d). 分别对应的CPU占用率如下
-----------------
//640x480
CPU1 - 48%
CPU2 - 1%
//720P
CPU1 - 100%
CPU2 - 1%
//1080P
CPU1 - 100%
CPU2 - 1%
-----------------
d). 和Parallel Camera摄像头同时显示
./ 原生ipu driver无法支持两路camera同时显示,需要对image source code 打patch,然后按照这里的说明重新编译kernel 和 modules,并部署到Apalis
i.MX6模块.
./ 然后运行下面gstreamer pipeline来进行同时显示
-----------------
gst-launch -vvv imxv4l2src device=/dev/video2 capture-mode=0 fps-n=30 ! imxv4l2sink device=/dev/video17 disp-width=640 disp-height=480 & gst-launch -vvv tvsrc device=/dev/video0 ! imxv4l2sink device=/dev/video16 disp-width=640 disp-height=480 axis-top=480
-----------------
./ 显示效果如下
./ 此时CPU占用率 ----------------- CPU1 60% CPU2 40% ----------------- 4). Apalis T30 a). 模块支持两路Parallel Camera接口和一路MIPI CSI-2 V1.0接口(1-4 lane) b). 手动加载驱动模块, 识别出 /dev/video0 (ADV7180)和/dev/video1(OV5640) ----------------- root@apalis-t30:~# modprobe videobuf2-memops root@apalis-t30:~# modprobe videobuf2-dma-nvmap root@apalis-t30:~# modprobe adv7180 root@apalis-t30:~# modprobe ov5640 root@apalis-t30:~# modprobe tegra_v4l2_camera ----------------- c). 运行下面gstreamer pipeline测试MIPI CSI-2摄像头 ----------------- /* 640x480分辨率抓取并播放 framerate=90 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=640, height=480, framerate=90/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink /* 1296x972分辨率抓取并播放 framerate=60 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=1296, height=972, framerate=60/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink /* 1920x1088分辨率抓取并播放 framerate=15 */ gst-launch -vvv v4l2src device=/dev/video1 ! 'video/x-raw-yuv, width=1920, height=1088, framerate=15/1' ! deinterlace tff=1 method=4 ! nv_omx_videomixer ! nv_gl_eglimagesink ----------------- d). 分别对应的CPU占用率如下 ----------------- //640x480 CPU1 - 85% CPU2 - 0% CPU3 - 0% CPU4 - 0% //720P CPU1 - 90% CPU2 - 70% CPU3 - 0% CPU4 - 0% //1080P CPU1 - 100% CPU2 - 60% CPU3 - 0% CPU4 - 0% ----------------- 5). 总结 随着ARM处理器性能越来越强大,高质量的摄像头解决方案的需求在嵌入式工业领域也会越来越广泛,MIPI CSI无疑是目前最好的方案之一,相信会有广阔的前景。