Arduino连接TGAM(蓝牙脑波模块)之代码篇
Arduino连接TGAM(蓝牙脑波模块)
因为从淘宝上购买以后,很多网店都没有与Arduino连接的代码,经历千辛万苦终于找到了官网的一段与Arduino通讯的代码。下面把资料以及连接附在这里,供大家学习。
这里附上官网链接:http://developer.neurosky.com/docs/doku.php?id=mindwave_mobile_and_arduino
百度网盘链接:https://pan.baidu.com/s/18fkeSE6d1n24q9dkD6HQAQ
提取码:ijdo
Arduino代码说明
TGAM套件自带一个蓝牙,我们需要在Arduino板上再接一个蓝牙。两个蓝牙之间相互通讯。即设置两个蓝牙,一个为主机,一个为从机。
这里需要注意:主机和从机之间可以互发数据。最主要的区别在于,蓝牙主机是主动搜索,而蓝牙从机只能被动连接。
连接图
Arudino代码
////////////////////////////////////////////////////////////////////////
// Arduino Bluetooth Interface with Mindwave
//
// This is example code provided by NeuroSky, Inc. and is provided
// license free.
////////////////////////////////////////////////////////////////////////
#define LED 13
#define BAUDRATE 57600
#define DEBUGOUTPUT 0
// checksum variables
byte generatedChecksum = 0;
byte checksum = 0;
int payloadLength = 0;
byte payloadData[64] = {0};
byte poorQuality = 0;
byte attention = 0;
byte meditation = 0;
int raw=0;
// system variables
long lastReceivedPacket = 0;
boolean bigPacket = false;
//////////////////////////
// Microprocessor Setup //
//////////////////////////
void setup() {
pinMode(LED, OUTPUT);
Serial.begin(BAUDRATE); // USB
}
////////////////////////////////
// Read data from Serial UART //
////////////////////////////////
byte ReadOneByte() {
int ByteRead;
while(!Serial.available());
digitalWrite(13,HIGH);
ByteRead = Serial.read();
return ByteRead;
}
/////////////
//MAIN LOOP//
/////////////
void loop() {
// Look for sync bytes
if(ReadOneByte() == 170) {
if(ReadOneByte() == 170) {
payloadLength = ReadOneByte();
if(payloadLength > 169) //Payload length can not be greater than 169
return;
generatedChecksum = 0;
for(int i = 0; i < payloadLength; i++) {
payloadData[i] = ReadOneByte(); //Read payload into memory
generatedChecksum += payloadData[i];
}
checksum = ReadOneByte(); //Read checksum byte from stream
generatedChecksum = 255 - generatedChecksum; //Take one's compliment of generated checksum
if(checksum == generatedChecksum) {
poorQuality = 200;
attention = 0;
meditation = 0;
for(int i = 0; i < payloadLength; i++) { // Parse the payload
switch (payloadData[i]) {
case 2:
i++;
poorQuality = payloadData[i];
bigPacket = true;
break;
case 4:
i++;
attention = payloadData[i];
break;
case 5:
i++;
meditation = payloadData[i];
break;
case 0x80:
i = i + 3;
raw=payloadData[i-1]*256+payloadData[i];
if(raw>=32768)
raw=raw-65536;
break;
case 0x83:
i = i + 25;
break;
default:
break;
} // switch
} // for loop
#if !DEBUGOUTPUT
// *** Add your code here ***
if(bigPacket) {
if(poorQuality == 0)
digitalWrite(LED, HIGH);
else
digitalWrite(LED, LOW);
Serial.print("PoorQuality: ");
Serial.print(poorQuality, DEC);
Serial.print(" Attention: ");
Serial.print(attention, DEC);
Serial.print(" raw ");
Serial.print(raw);
Serial.print(" Time since last packet: ");
Serial.print(millis() - lastReceivedPacket, DEC);
lastReceivedPacket = millis();
Serial.print(" Att: ");
int att=Serial.print(attention,DEC);
Serial.print("\n");
switch(attention / 10) {
case 0:
digitalWrite(LED, HIGH);
break;
case 1:
digitalWrite(LED, HIGH);
break;
case 2:
digitalWrite(LED, HIGH);
break;
case 3:
digitalWrite(LED, HIGH);
break;
case 4:
digitalWrite(LED, HIGH);
break;
case 5:
digitalWrite(LED, HIGH);
break;
case 6:
digitalWrite(LED, HIGH);
break;
case 7:
digitalWrite(LED, HIGH);
break;
case 8:
digitalWrite(LED, HIGH);
break;
case 9:
digitalWrite(LED, HIGH);
break;
case 10:
digitalWrite(LED, HIGH);
break;
}
Serial.flush();
}
#endif
bigPacket = false;
}
else {
}
Serial.flush();
}
}
}
这里从Arduino串口读取到专注度。从而可以还控制LED灯的开关,还有小车的运动。
关于蓝牙主从机的连接我会稍后发。