Sample program for communicating with Fujitsuu IoT Platform using HTTP
Dependencies: AsciiFont GR-PEACH_video GraphicsFramework LCD_shield_config R_BSP USBHost_custom easy-connect-gr-peach mbed-http picojson BM1383GLV KX022 rohm-sensor-hal rohm-bh1745
Overview
This sample program shows how to send the cognitive data and sensing data gathered by Omron HVC-P2 and Rohm Sensor Shield respectively to IoT Platform managed by FUJITSU ( http://jp.fujitsu.com/solutions/cloud/k5/function/paas/iot-platform/ ).
Required Hardware
- GR-PEACH ( https://developer.mbed.org/platforms/Renesas-GR-PEACH/ )
- LCD Shield ( https://developer.mbed.org/teams/Renesas/Wiki/LCD-shield )
- HVC-P2 ( Human Vision Components B5T-007001 ) ( https://plus-sensin.omron.com/product/B5T-007001/ )
- SensorShield-EVK-001 ( Rohm Sensor Evaluation Kit ) ( http://www.rohm.com/web/global/sensor-shield-support )
Application Setup
- Configure the connection type. For details, please refer to the following link:
https://developer.mbed.org/teams/Renesas/code/GR-PEACH_IoT_Platform_HTTP_sample/wiki/Connection-Type - Configure Ethernet settings. For details, please refer to the following link:
https://developer.mbed.org/teams/Renesas/code/GR-PEACH_IoT_Platform_HTTP_sample/wiki/Ethernet-settings - Set up the Access Code of resource where the gathered data would be stored. For details on Access Code, please refer to the following links:
https://iot-docs.jp-east-1.paas.cloud.global.fujitsu.com/en/manual/userguide_en.pdf
https://iot-docs.jp-east-1.paas.cloud.global.fujitsu.com/en/manual/apireference_en.pdf
https://iot-docs.jp-east-1.paas.cloud.global.fujitsu.com/en/manual/portalmanual_en.pdf
- Set up URI for the resource where the gathered data would be stored. For details, please refer to the following link:
https://iot-docs.jp-east-1.paas.cloud.global.fujitsu.com/en/manual/userguide_en.pdf
https://iot-docs.jp-east-1.paas.cloud.global.fujitsu.com/en/manual/apireference_en.pdf
Building Example
- Import this sample program onto mbed Compiler
- Configure the program in accordance with the description of Application Setup above
- Compile the sample program
- Plug the Ethernet cable into GR-PEACH if you would like Ethernet mode
- Plug micro-USB cable into the OpenSDA port which lies on the next to the RESET button
- Copy the binary previously downloaded to your PC to GR-PEACH in order to flash this program. When the copy is successfully completed, the drive named MBED should be re-mounted automatically
- Press the RESET button on the board to run the sample application
Data Format sent to IoT Platform
In this sample program, the cognitive data and sensing data are serialized into the following JSON format using picojson (https://developer.mbed.org/users/mimil/code/picojson/):
- Face detection data
{ "RecordType": "HVC-P2(face)", "id": "<GR-PEACH ID>-<Sensor ID>", "Age": xxx, "FaceRectangle": { "Height": xxx, "Left": xxx, "Top": xxx, "Width": xxx }, "Gender": xxx, "Scores": { "Anger": xxx, "Happiness": xxx, "Neutral": xxx, "Sadness": xxx, "Surprise": xxx } }
- Body detection data
{ "RecodeType": "HVC-P2(body)", "id": "<GR-PEACH ID>-<Sensor ID>", "BodyRectangle": { "Height": xxx, "Left": xxx, "Top": xxx, "Width": xxx } }
- Accelerometer data
{ "RecodeType": "Accelerometer", "id": "<GR-PEACH ID>-<Sensor ID>", "data": [ acceleratoin(x-direction), acceleration(y-direction), acceleration(z-direction), null, null, null ] }
Note that data[0], data[1] and data[2] are filled with the acceleration data in x, y and z direction respectively, and the remaining elements are filled with null.
- Atmosphere data
{ "RecodeType": "Atmosphere", "id": "<GR-PEACH ID>-<Sensor ID>", "data": [ atmosphere data, null, null, null, null, null ] }
Note that data[0] is filled with atmosphere data, and the remaining elements are filled with null.
- Color sensor data
{ "RecodeType": "Color", "id": "<GR-PEACH ID>-<Sensor ID>", "data": [ Red, Green, Blue, Alpha, null, null] }
Note that data[0], data[1], data[2] and data[3] are filled with Red, Green, Blue and Alpha elements of color respectively, and the remaining elements are filled with null.
- Temperature data
{ "RecodeType": "Temperature", "id": "<GR-PEACH ID>-<Sensor ID>", "data": [ Temperature, null, null, null, null, null ] }
Note that data[0] is filled with temperature data, the remaining elements are filled with null.
- Geomagnetism
{ "RecodeType": "Geomagnetism", "id": "<GR-PEACH ID>-<Sensor ID>", "data": [ geomagnetism(x-direction), geomagnetism(y-direction), geomagnetism(z-direction), null, null, null] }
Note that data[0], data[1] and data[2] are filled with the geomagnetism data in x, y and z direction respectively, and the remaining elements are filled with null.
HVCApi/HVCApi.h
- Committer:
- Osamu Nakamura
- Date:
- 2018-04-12
- Revision:
- 7:9ae73f85dc04
- Parent:
- 0:8373b6833bde
File content as of revision 7:9ae73f85dc04:
/*---------------------------------------------------------------------------*/ /* Copyright(C) 2017 OMRON Corporation */ /* */ /* Licensed under the Apache License, Version 2.0 (the "License"); */ /* you may not use this file except in compliance with the License. */ /* You may obtain a copy of the License at */ /* */ /* http://www.apache.org/licenses/LICENSE-2.0 */ /* */ /* Unless required by applicable law or agreed to in writing, software */ /* distributed under the License is distributed on an "AS IS" BASIS, */ /* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. */ /* See the License for the specific language governing permissions and */ /* limitations under the License. */ /*---------------------------------------------------------------------------*/ /* HVC Sample API */ #ifndef HVCApi_H__ #define HVCApi_H__ #ifndef UINT8 typedef unsigned char UINT8; /* 8 bit Unsigned Integer */ #endif /* UINT8 */ #ifndef INT32 typedef int INT32; /* 32 bit Signed Integer */ #endif /* INT32 */ #ifndef NULL #define NULL 0 #endif #include "HVCDef.h" #ifdef __cplusplus extern "C" { #endif /* HVC_GetVersion */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : HVC_VERSION *outVersion version data */ /* : UINT8 *outStatus response code */ INT32 HVC_GetVersion(INT32 inTimeOutTime, HVC_VERSION *outVersion, UINT8 *outStatus); /* HVC_SetCameraAngle */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inAngleNo camera angle number */ /* : UINT8 *outStatus response code */ INT32 HVC_SetCameraAngle(INT32 inTimeOutTime, INT32 inAngleNo, UINT8 *outStatus); /* HVC_GetCameraAngle */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 *outAngleNo camera angle number */ /* : UINT8 *outStatus response code */ INT32 HVC_GetCameraAngle(INT32 inTimeOutTime, INT32 *outAngleNo, UINT8 *outStatus); /* HVC_Execute */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inExec executable function */ /* : INT32 inImage image output number */ /* : HVC_RESULT *outHVCResult result data */ /* : UINT8 *outStatus response code */ INT32 HVC_Execute(INT32 inTimeOutTime, INT32 inExec, INT32 inImage, HVC_RESULT *outHVCResult, UINT8 *outStatus); /* HVC_ExecuteEx */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inExec executable function */ /* : INT32 inImage image output number */ /* : HVC_RESULT *outHVCResult result data */ /* : UINT8 *outStatus response code */ INT32 HVC_ExecuteEx(INT32 inTimeOutTime, INT32 inExec, INT32 inImage, HVC_RESULT *outHVCResult, UINT8 *outStatus); /* HVC_SetThreshold */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : HVC_THRESHOLD *inThreshold threshold values */ /* : UINT8 *outStatus response code */ INT32 HVC_SetThreshold(INT32 inTimeOutTime, HVC_THRESHOLD *inThreshold, UINT8 *outStatus); /* HVC_GetThreshold */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : HVC_THRESHOLD *outThreshold threshold values */ /* : UINT8 *outStatus response code */ INT32 HVC_GetThreshold(INT32 inTimeOutTime, HVC_THRESHOLD *outThreshold, UINT8 *outStatus); /* HVC_SetSizeRange */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : HVC_SIZERANGE *inSizeRange detection sizes */ /* : UINT8 *outStatus response code */ INT32 HVC_SetSizeRange(INT32 inTimeOutTime, HVC_SIZERANGE *inSizeRange, UINT8 *outStatus); /* HVC_GetSizeRange */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : HVC_SIZERANGE *outSizeRange detection sizes */ /* : UINT8 *outStatus response code */ INT32 HVC_GetSizeRange(INT32 inTimeOutTime, HVC_SIZERANGE *outSizeRange, UINT8 *outStatus); /* HVC_SetFaceDetectionAngle */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inPose Yaw angle range */ /* : INT32 inAngle Roll angle range */ /* : UINT8 *outStatus response code */ INT32 HVC_SetFaceDetectionAngle(INT32 inTimeOutTime, INT32 inPose, INT32 inAngle, UINT8 *outStatus); /* HVC_GetFaceDetectionAngle */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 *outPose Yaw angle range */ /* : INT32 *outAngle Roll angle range */ /* : UINT8 *outStatus response code */ INT32 HVC_GetFaceDetectionAngle(INT32 inTimeOutTime, INT32 *outPose, INT32 *outAngle, UINT8 *outStatus); /* HVC_SetBaudRate */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inRate Baudrate */ /* : UINT8 *outStatus response code */ INT32 HVC_SetBaudRate(INT32 inTimeOutTime, INT32 inRate, UINT8 *outStatus); /* HVC_Registration */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inUserID User ID (0-499) */ /* : INT32 inDataID Data ID (0-9) */ /* : HVC_IMAGE *outImage image info */ /* : UINT8 *outStatus response code */ INT32 HVC_Registration(INT32 inTimeOutTime, INT32 inUserID, INT32 inDataID, HVC_IMAGE *outImage, UINT8 *outStatus); /* HVC_DeleteData */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inUserID User ID (0-499) */ /* : INT32 inDataID Data ID (0-9) */ /* : UINT8 *outStatus response code */ INT32 HVC_DeleteData(INT32 inTimeOutTime, INT32 inUserID, INT32 inDataID, UINT8 *outStatus); /* HVC_DeleteUser */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inUserID User ID (0-499) */ /* : UINT8 *outStatus response code */ INT32 HVC_DeleteUser(INT32 inTimeOutTime, INT32 inUserID, UINT8 *outStatus); /* HVC_DeleteAll */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : UINT8 *outStatus response code */ INT32 HVC_DeleteAll(INT32 inTimeOutTime, UINT8 *outStatus); /* HVC_GetUserData */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : INT32 inUserID User ID (0-499) */ /* : INT32 *outDataNo Registration Info */ /* : UINT8 *outStatus response code */ INT32 HVC_GetUserData(INT32 inTimeOutTime, INT32 inUserID, INT32 *outDataNo, UINT8 *outStatus); /* HVC_SaveAlbum */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : UINT8 *outAlbumData Album data */ /* : INT32 *outAlbumDataSize Album data size */ /* : UINT8 *outStatus response code */ INT32 HVC_SaveAlbum(INT32 inTimeOutTime, UINT8 *outAlbumData, INT32 *outAlbumDataSize, UINT8 *outStatus); /* HVC_LoadAlbum */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : UINT8 *inAlbumData Album data */ /* : INT32 inAlbumDataSize Album data size */ /* : UINT8 *outStatus response code */ INT32 HVC_LoadAlbum(INT32 inTimeOutTime, UINT8 *inAlbumData, INT32 inAlbumDataSize, UINT8 *outStatus); /* HVC_WriteAlbum */ /* param : INT32 inTimeOutTime timeout time (ms) */ /* : UINT8 *outStatus response code */ INT32 HVC_WriteAlbum(INT32 inTimeOutTime, UINT8 *outStatus); #ifdef __cplusplus } #endif #endif /* HVCApi_H__ */