Chapter 1 : Hardware specifications
Hardware | Image | Parameter | Source |
Seeeduino LoRaWAN | Operating voltage: 3.3V | https://collab.dvb.bayern/display/TUMgeosensorweb/Intro+Arduino+IDE https://wiki.seeedstudio.com/Seeeduino_LoRAWAN/ | |
Base Shield v2.1 | Operating voltage 3.⅗V | https://collab.dvb.bayern/display/TUMgeosensorweb/Base+Shield | |
Grove - 16x2 LCD (Black on Red) display | Operating Voltage 3.3V / 5V | https://collab.dvb.bayern/pages/viewpage.action?pageId=73809409 | |
Grove - Vibration Sensor (SW-420) | Operating voltage 3.3V / 5V | https://collab.dvb.bayern/pages/viewpage.action?pageId=73809436 https://wiki.seeedstudio.com/Grove-Vibration_Sensor_SW-420/ | |
Grove - 6-Axis Accelerometer&Gyroscope (BMI088) | Operating Voltage 3.3V / 5V | https://wiki.seeedstudio.com/Grove-6-Axis_Accelerometer&Gyroscope_BMI088/ |
Chapter 2 : Project objectives
- Construction of a sensor board with precise positioning of at least three acceleration sensors
- Orientation and temporal calibration to determine differences in arrival times
- Detection, association, and triangulation of the impulse peaks
- Transmission of pedestrian paths using LoRaWAN and evaluation via the sensor data platform
- Evaluation of accuracy through controlled experiments
Intermediate presentation: Group-22_2D_Pedestrian_tracking_using_groung_impulse_detection.pptx