Sample to operate omron HVC-P2 on GR-PEACH.
Dependencies: AsciiFont
What is this ?
This is a sample that runs OMRON HVC-P2 with GR-PEACH. In this sample, you can try following among the functions of HVC-P2 : Human Body Detection, Face Detection, Age Estimation, Gender Estimation, Expression Estimation and Face Recognition.
Both GR-PEACH and HVC-P2 use Renesas RZ/A1H included ARM® Cortex™-A9 processor.
HVC-P2 (Human Vision Components B5T-007001) is a human-sensing component that recognizes people. It is an integrated module that is built into other device and provides both the OKAO Vision's ten types of image sensing and a camera module.
For details, please refer to the following link.
- SENSING EGG PROJECT > HVC-P2 (In Japanese)
https://plus-sensing.omron.co.jp/egg-project/product/hvc-p2/ - HVC-P2 (Human Vision Components B5T-007001)
http://www.omron.com/ecb/products/mobile/hvc_p2/ - OKAO Vision
https://plus-sensing.omron.com/technology/index.html
In the HVCApi folder of this sample, the code of the following link destination Sample Code "SampleCode_rev.2.0.2" is used. (You can download from "Product Information" -> "Sample Code" in the middle of the following page.)
http://www.omron.com/ecb/products/mobile/hvc_p2/
Constitution
- HVC-P2 x 1
- USBA-microUSB conversion cable x 2
- USBA-microUSB conversion adapter x 1
- GR-PEACH x 1
- 4.3inc LCD shield x 1
Please close JP3 of GR-PEACH.
How to use
It starts when connecting the power supply USB cable. At startup, all functions are turned off. By pressing the button on the right of the screen you can switch the function on / off.
- Function ON : orange or green
- Function OFF : blue or gray
Only the FACE button changes to "FACE (blue) -> FACE (orange) -> RECOGNITION (green)". When FACE (blue), following buttons are gray and can not be operated : AGE, GENDER and EXPRESSION.
"Response time" at the bottom left of the screen indicates "image processing + USB transfer time". It is not pure image processing time.
Register Data (Face Recognition)
Set the FACE button to RECOGNITION (green), and touch the screen with one person on the screen to register the face. In this sample, face registration will record up to 10 people. Delete the old registrant when registering after 11 people. Registration information is stored in the RAM on the HVC-P2 side. It is discarded by power off and reset.
Change parameters
When you press Config icon at the bottom right of the screen, the parameter setting screen is displayed. You can change threshold value, detection size and face angle parameters.
Change transfer image size
By pressing USER_BUTTON0 on the back of the board, the image transfer size switches in the order of "160 x 120 -> 320 x 240 -> no image".
Images/BinaryImage_RZ_A1H.h@0:f5de229c9a00, 2017-01-23 (annotated)
- Committer:
- dkato
- Date:
- Mon Jan 23 06:22:08 2017 +0000
- Revision:
- 0:f5de229c9a00
first commit
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
dkato | 0:f5de229c9a00 | 1 | #ifndef BINARYIMAGE_RZ_A1H_H |
dkato | 0:f5de229c9a00 | 2 | #define BINARYIMAGE_RZ_A1H_H |
dkato | 0:f5de229c9a00 | 3 | |
dkato | 0:f5de229c9a00 | 4 | #ifdef __cplusplus |
dkato | 0:f5de229c9a00 | 5 | extern "C" { /* Start of C Symbol */ |
dkato | 0:f5de229c9a00 | 6 | #endif |
dkato | 0:f5de229c9a00 | 7 | |
dkato | 0:f5de229c9a00 | 8 | extern const uint8_t RGA_Sample_BinaryImage[ 0x000CB600uL ]; |
dkato | 0:f5de229c9a00 | 9 | |
dkato | 0:f5de229c9a00 | 10 | #define background ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x00000000 )) |
dkato | 0:f5de229c9a00 | 11 | #define background_setting ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x00025820 )) |
dkato | 0:f5de229c9a00 | 12 | #define button_inv ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000A5040 )) |
dkato | 0:f5de229c9a00 | 13 | #define button_off ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000AA160 )) |
dkato | 0:f5de229c9a00 | 14 | #define button_on ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000AF280 )) |
dkato | 0:f5de229c9a00 | 15 | #define button_on2 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000B43A0 )) |
dkato | 0:f5de229c9a00 | 16 | #define str_human_body ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000B94C0 )) |
dkato | 0:f5de229c9a00 | 17 | #define str_face ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BABA0 )) |
dkato | 0:f5de229c9a00 | 18 | #define str_age ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BB480 )) |
dkato | 0:f5de229c9a00 | 19 | #define str_gender ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BBBA0 )) |
dkato | 0:f5de229c9a00 | 20 | #define str_expression ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BC9C0 )) |
dkato | 0:f5de229c9a00 | 21 | #define str_recognition ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BDEE0 )) |
dkato | 0:f5de229c9a00 | 22 | #define str_angle ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000BF5C0 )) |
dkato | 0:f5de229c9a00 | 23 | #define str_close ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C0220 )) |
dkato | 0:f5de229c9a00 | 24 | #define str_detection_size ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C0CC0 )) |
dkato | 0:f5de229c9a00 | 25 | #define str_max ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C2720 )) |
dkato | 0:f5de229c9a00 | 26 | #define str_min ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C3000 )) |
dkato | 0:f5de229c9a00 | 27 | #define str_roll ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C3720 )) |
dkato | 0:f5de229c9a00 | 28 | #define str_threshold_value ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C4000 )) |
dkato | 0:f5de229c9a00 | 29 | #define str_yaw ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C5FA0 )) |
dkato | 0:f5de229c9a00 | 30 | #define str_reset ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C6880 )) |
dkato | 0:f5de229c9a00 | 31 | #define char_0 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C7320 )) |
dkato | 0:f5de229c9a00 | 32 | #define char_1 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C76C0 )) |
dkato | 0:f5de229c9a00 | 33 | #define char_2 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C7A60 )) |
dkato | 0:f5de229c9a00 | 34 | #define char_3 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C7E00 )) |
dkato | 0:f5de229c9a00 | 35 | #define char_4 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C81A0 )) |
dkato | 0:f5de229c9a00 | 36 | #define char_5 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C8540 )) |
dkato | 0:f5de229c9a00 | 37 | #define char_6 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C88E0 )) |
dkato | 0:f5de229c9a00 | 38 | #define char_7 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C8C80 )) |
dkato | 0:f5de229c9a00 | 39 | #define char_8 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C9020 )) |
dkato | 0:f5de229c9a00 | 40 | #define char_9 ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C93C0 )) |
dkato | 0:f5de229c9a00 | 41 | #define char_angle ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C9760 )) |
dkato | 0:f5de229c9a00 | 42 | #define char_plus_minus ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C9B00 )) |
dkato | 0:f5de229c9a00 | 43 | #define char_left ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000C9EA0 )) |
dkato | 0:f5de229c9a00 | 44 | #define char_rigth ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000CA240 )) |
dkato | 0:f5de229c9a00 | 45 | #define icon_setting ((const graphics_image_t*)( RGA_Sample_BinaryImage + 0x000CA5E0 )) |
dkato | 0:f5de229c9a00 | 46 | |
dkato | 0:f5de229c9a00 | 47 | #ifdef __cplusplus |
dkato | 0:f5de229c9a00 | 48 | } /* End of C Symbol */ |
dkato | 0:f5de229c9a00 | 49 | #endif |
dkato | 0:f5de229c9a00 | 50 | |
dkato | 0:f5de229c9a00 | 51 | #endif /* BINARYIMAGE_RZ_A1H_H */ |