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#include <lmic.h> #include <hal/hal.h> #include <SPI.h> #include <U8x8lib.h> #define BUILTIN_LED 25 // the OLED used U8X8_SSD1306_128X64_NONAME_SW_I2C u8x8(/* clock=*/ 15, /* data=*/ 4, /* reset=*/ 16); // This EUI must be in little-endian format, so least-significant-byte // first. When copying an EUI from ttnctl output, this means to reverse // the bytes. For TTN issued EUIs the last bytes should be 0xD5, 0xB3, // 0x70. static const u1_t PROGMEM APPEUI[8]={ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; void os_getArtEui (u1_t* buf) { memcpy_P(buf, APPEUI, 8); } // This should also be in little endian format, see above. static const u1_t PROGMEM DEVEUI[8]={ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; void os_getDevEui (u1_t* buf) { memcpy_P(buf, DEVEUI, 8); } // This key should be in big endian format (or, since it is not really a // number but a block of memory, endianness does not really apply). In // practice, a key taken from ttnctl can be copied as-is. // The key shown here is the semtech default key. static const u1_t PROGMEM APPKEY[16] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; void os_getDevKey (u1_t* buf) { memcpy_P(buf, APPKEY, 16); } static uint8_t mydata[] = "Hi"; static osjob_t sendjob; // Schedule TX every this many seconds (might become longer due to duty // cycle limitations). const unsigned TX_INTERVAL = 60; // Pin mapping const lmic_pinmap lmic_pins = { .nss = 18, .rxtx = LMIC_UNUSED_PIN, .rst = 14, .dio = {26, 33, 32}, }; void onEvent (ev_t ev) { Serial.print(os_getTime()); u8x8.setCursor(0, 5); u8x8.printf("TIME %lu", os_getTime()); Serial.print(": "); switch (ev) { case EV_SCAN_TIMEOUT: Serial.println(F("EV_SCAN_TIMEOUT")); u8x8.drawString(0, 7, "EV_SCAN_TIMEOUT"); break; case EV_BEACON_FOUND: Serial.println(F("EV_BEACON_FOUND")); u8x8.drawString(0, 7, "EV_BEACON_FOUND"); break; case EV_BEACON_MISSED: Serial.println(F("EV_BEACON_MISSED")); u8x8.drawString(0, 7, "EV_BEACON_MISSED"); break; case EV_BEACON_TRACKED: Serial.println(F("EV_BEACON_TRACKED")); u8x8.drawString(0, 7, "EV_BEACON_TRACKED"); break; case EV_JOINING: Serial.println(F("EV_JOINING")); u8x8.drawString(0, 7, "EV_JOINING"); break; case EV_JOINED: Serial.println(F("EV_JOINED")); u8x8.drawString(0, 7, "EV_JOINED "); LMIC_setDrTxpow(DR_SF12, 14); //added fixed SF after join for longer range messages // Disable link check validation (automatically enabled // during join, but not supported by TTN at this time). LMIC_setLinkCheckMode(0); break; case EV_RFU1: Serial.println(F("EV_RFU1")); u8x8.drawString(0, 7, "EV_RFUI"); break; case EV_JOIN_FAILED: Serial.println(F("EV_JOIN_FAILED")); u8x8.drawString(0, 7, "EV_JOIN_FAILED"); break; case EV_REJOIN_FAILED: Serial.println(F("EV_REJOIN_FAILED")); u8x8.drawString(0, 7, "EV_REJOIN_FAILED"); //break; break; case EV_TXCOMPLETE: Serial.println(F("EV_TXCOMPLETE (includes waiting for RX windows)")); u8x8.drawString(0, 7, "EV_TXCOMPLETE"); digitalWrite(BUILTIN_LED, LOW); if (LMIC.txrxFlags & TXRX_ACK) { Serial.println(F("Received ack")); u8x8.drawString(0, 7, "Received ACK"); } if (LMIC.dataLen) { Serial.println(F("Received ")); u8x8.drawString(0, 6, "RX "); Serial.println(LMIC.dataLen); u8x8.setCursor(4, 6); u8x8.printf("%i bytes", LMIC.dataLen); Serial.println(F(" bytes of payload")); u8x8.setCursor(0, 7); u8x8.printf("RSSI %d SNR %.1d", LMIC.rssi, LMIC.snr); } // Schedule next transmission os_setTimedCallback(&sendjob, os_getTime() + sec2osticks(TX_INTERVAL), do_send); break; case EV_LOST_TSYNC: Serial.println(F("EV_LOST_TSYNC")); u8x8.drawString(0, 7, "EV_LOST_TSYNC"); break; case EV_RESET: Serial.println(F("EV_RESET")); u8x8.drawString(0, 7, "EV_RESET"); break; case EV_RXCOMPLETE: // data received in ping slot Serial.println(F("EV_RXCOMPLETE")); u8x8.drawString(0, 7, "EV_RXCOMPLETE"); break; case EV_LINK_DEAD: Serial.println(F("EV_LINK_DEAD")); u8x8.drawString(0, 7, "EV_LINK_DEAD"); break; case EV_LINK_ALIVE: Serial.println(F("EV_LINK_ALIVE")); u8x8.drawString(0, 7, "EV_LINK_ALIVE"); break; default: Serial.println(F("Unknown event")); u8x8.setCursor(0, 7); u8x8.printf("UNKNOWN EVENT %d", ev); break; } } void do_send(osjob_t* j) { // Check if there is not a current TX/RX job running if (LMIC.opmode & OP_TXRXPEND) { Serial.println(F("OP_TXRXPEND, not sending")); u8x8.drawString(0, 7, "OP_TXRXPEND, not sent"); } else { // Prepare upstream data transmission at the next possible time. LMIC_setTxData2(1, mydata, sizeof(mydata) - 1, 0); Serial.println(F("Packet queued")); u8x8.drawString(0, 7, "PACKET QUEUED"); digitalWrite(BUILTIN_LED, HIGH); } // Next TX is scheduled after TX_COMPLETE event. } void setup() { Serial.begin(115200); u8x8.begin(); u8x8.setFont(u8x8_font_chroma48medium8_r); u8x8.drawString(0, 1, "LoRaWAN LMiC"); SPI.begin(5, 19, 27); // LMIC init os_init(); // Reset the MAC state. Session and pending data transfers will be discarded. LMIC_reset(); LMIC_setDrTxpow(DR_SF12, 14); //set join at SF12 // Start job (sending automatically starts OTAA too) do_send(&sendjob); pinMode(BUILTIN_LED, OUTPUT); digitalWrite(BUILTIN_LED, LOW); } void loop() { os_runloop_once(); }
lsb
lsb
msb
Spreading Factor (SF #). The higher the SF (i.e. the slower the transmission), the longer the communication range. Large SFs allow longer communication range. However, large SFs also increase the time on air and, consequently, the off-period duration.
Gain? (drugi broj).
Promjeni u svim linijama!
SF12, 14
(veći domet ali i potencijalno više grešaka)SF7, 16
(u zraku je kratko)
LoRa Modem Packet formatting
U Arduino IDE-u pod Tools / Boards
izaberi odgovarajuću pločicu (u našem slučaju Heltec_WIFI_Kit_32
) i pod Port
izaberi port na kojem se nalazi device.
TTN mapper služi za prikaz, analizu i mapiranje TTN LoRa mreže. Sučelje mu je u banani pa je najbolje pristupati direktno s parametrima:
TTN mapper android aplikacija pomoću koje se može upariti telefon s GPS-om i LoRa node, kako bi se moglo testirati i mapirati pokrivenost mreže.