Send the data of GR-PEACH_HVC-P2_sample to the cloud.

Dependencies:   AsciiFont GR-PEACH_video GraphicsFramework LCD_shield_config R_BSP USBHost_custom easy-connect-gr-peach

Fork of mbed-os-example-client by mbed-os-examples

Note at the time of sample import

Please not check the "Update all libraries to the latest version" at the time of import.

Warning!

When exporting and using it, increase the following stack size.

mbed-os/features/FEATURE_LWIP/lwip-interface/lwipopts.h

#define TCPIP_THREAD_STACKSIZE      1024
->
#define TCPIP_THREAD_STACKSIZE      2048

Overview

This is a sample to send the analysis result of GR-PEACH_HVC-P2_sample to the cloud using mbed-client. Please refer to following for operation of HVC-P2.

Import programGR-PEACH_HVC-P2_sample

Sample to operate omron HVC-P2 on GR-PEACH.


Required hardware

Application setup

Client credentials

To register the application to mbed Device Connector, you need to create and set the client side certificate.

  1. Go to https://connector.mbed.com/ and log in with your mbed account
  2. On mbed Device Connector, go to https://connector.mbed.com/#credentials and click the Get my device security credentials button to get new credentials for your device.
  3. Replace the contents in security.h of this example with content copied above.

Ethernet settings

This sample uses Ethernet as the default connection type. To change the connection type, set WIFI_BP3595 in mbed_app.json:

mbed_app.json

"network-interface":{
    "help": "Options are ETHERNET, WIFI_ESP8266, WIFI_BP3595",
    "value": "ETHERNET"
},


To specify MAC address, add fllowing function to main.cpp. (When using Wifi, setting of MAC address is not necessary.)

Specify MAC address

// set mac address
void mbed_mac_address(char *mac) {
    mac[0] = 0x00;
    mac[1] = 0x02;
    mac[2] = 0xF7;
    mac[3] = 0xF0;
    mac[4] = 0x00;
    mac[5] = 0x00;
}


Wifi settings

This example can use BP3595 Wifi Interface for managing the wireless connectivity. To run this example using Wifi, you need:

  1. A BP3595 Wifi module ( https://developer.mbed.org/components/BP3595-for-GR-PEACH/ )
  2. Mount BP3595 onto GR-PEACH
  3. Close GR-PEACH's JP21 (https://developer.mbed.org/teams/Renesas/wiki/Jumper-settings-of-GR-PEACH)
  4. In the mbed_app.json file, change

mbed_app.json

"network-interface":{
    "help": "Options are ETHERNET, WIFI_ESP8266, WIFI_BP3595",
    "value": "WIFI_BP3595"
},


Provide your Wifi SSID and password here and leave \" in the beginning and end of your SSID and password as shown in the example below:

mbed_app.json

"wifi-ssid": {
    "help": "WiFi SSID",
    "value": "\"SSID\""
},
"wifi-password": {
    "help": "WIFI Password",
    "value": "\"Password\""
}


Specify the security type for connection to be used. When the security type is WPA2, you need to specify NSAPI_SECURITY_WAP as follows:

mbed_app.json

"wifi-security":{
    "help": "Options are NSAPI_SECURITY_WEP, NSAPI_SECURITY_WPA, NSAPI_SECURITY_WPA2, NSAPI_SECURITY_WPA_WPA2",
    "value": "NSAPI_SECURITY_WEP"
},

By default, NSAPI_SECURITY_WPA_WPA2 is specified here.

Application resources

This example exposes four resources listed below:

  1. 3202/0/5700. Recognition result from HVC-P2 (GET).
  2. 3201/0/5850. Blink function, blinks LED when executed (POST).
  3. 3201/0/5853. Blink pattern, used by the blink function to determine how to blink. In the format of 1000:500:1000:500:1000:500 (PUT).
  4. 3201/0/5855. Blink color, used by the blink function. Any of red, green, blue, cyan, yellow and magenta is acceptable (PUT).

For more info on how to get notifications when resource 1 changes, or how to use resource 2, 3 and 4, please look at

Import programGR-PEACH_mbed-connector-ZXingSample-node

Node.js based Web Application for mbed Device Connector specific to GR-PEACH_mbed-os-client-ZXingSample

# This is a Web Application for GR-PEACH_mbed-os-client-ZXingSample, but it can also be used for this sample.

Committer:
dkato
Date:
Tue Mar 14 05:59:09 2017 +0000
Revision:
74:bf6d9bd511bd
Parent:
73:fbc0212c2eaf
Changed initial setting of mbed_app.json to ETHERNET.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
dkato 73:fbc0212c2eaf 1 #ifndef RECOGNITION_PROCESSING_H
dkato 73:fbc0212c2eaf 2 #define RECOGNITION_PROCESSING_H
dkato 73:fbc0212c2eaf 3
dkato 73:fbc0212c2eaf 4 #include "DisplayBace.h"
dkato 73:fbc0212c2eaf 5 #include "HVCApi.h"
dkato 73:fbc0212c2eaf 6 #include "HVCDef.h"
dkato 73:fbc0212c2eaf 7 #include "HVCExtraUartFunc.h"
dkato 73:fbc0212c2eaf 8
dkato 73:fbc0212c2eaf 9 #define BODY_THRESHOLD_DEFAULT 500 /* Threshold for Human Body Detection */
dkato 73:fbc0212c2eaf 10 #define FACE_THRESHOLD_DEFAULT 500 /* Threshold for Face Detection */
dkato 73:fbc0212c2eaf 11 #define HAND_THRESHOLD_DEFAULT 500 /* Threshold for Hand Detection */
dkato 73:fbc0212c2eaf 12 #define REC_THRESHOLD_DEFAULT 500 /* Threshold for Face Recognition */
dkato 73:fbc0212c2eaf 13
dkato 73:fbc0212c2eaf 14 #define BODY_SIZE_RANGE_MIN_DEFAULT 180 /* Human Body Detection minimum detection size */
dkato 73:fbc0212c2eaf 15 #define BODY_SIZE_RANGE_MAX_DEFAULT 1000 /* Human Body Detection maximum detection size */
dkato 73:fbc0212c2eaf 16 #define HAND_SIZE_RANGE_MIN_DEFAULT 100 /* Hand Detection minimum detection size */
dkato 73:fbc0212c2eaf 17 #define HAND_SIZE_RANGE_MAX_DEFAULT 1000 /* Hand Detection maximum detection size */
dkato 73:fbc0212c2eaf 18 #define FACE_SIZE_RANGE_MIN_DEFAULT 100 /* Face Detection minimum detection size */
dkato 73:fbc0212c2eaf 19 #define FACE_SIZE_RANGE_MAX_DEFAULT 1000 /* Face Detection maximum detection size */
dkato 73:fbc0212c2eaf 20
dkato 73:fbc0212c2eaf 21 #define FACE_POSE_DEFAULT 0 /* Face Detection facial pose (frontal face)*/
dkato 73:fbc0212c2eaf 22 #define FACE_ANGLE_DEFAULT 0 /* Face Detection roll angle (±15°)*/
dkato 73:fbc0212c2eaf 23
dkato 73:fbc0212c2eaf 24 typedef struct {
dkato 73:fbc0212c2eaf 25 INT32 execFlag;
dkato 73:fbc0212c2eaf 26 HVC_THRESHOLD threshold;
dkato 73:fbc0212c2eaf 27 HVC_SIZERANGE sizeRange;
dkato 73:fbc0212c2eaf 28 INT32 pose;
dkato 73:fbc0212c2eaf 29 INT32 angle;
dkato 73:fbc0212c2eaf 30 } recognition_setting_t;
dkato 73:fbc0212c2eaf 31
dkato 73:fbc0212c2eaf 32 extern void recognition_task(DisplayBase * p_display);
dkato 73:fbc0212c2eaf 33
dkato 73:fbc0212c2eaf 34 extern recognition_setting_t * GetRecognitionSettingPointer(void);
dkato 73:fbc0212c2eaf 35 extern void SetRegistrationrReq(void);
dkato 73:fbc0212c2eaf 36 extern void SetSettingReq(void);
dkato 73:fbc0212c2eaf 37
dkato 73:fbc0212c2eaf 38 #endif