PACKMAN – A portable instrument to investigate space weather

Abstract: PACKMAN (PArticle Counter k-index Magnetic ANomaly) is an autonomous, light and robust space weather instrument for operation within the subsurface, surface and atmosphere (as payload in stratospheric balloons) of the Earth. It has been designed using Commercial Off-The-Shelf (COTS) components to reduce the cost of each unit and to allow to have multiple units monitoring simultaneously at different sites and also incorporate an open-access citizen science approach. The hardware-core of each PACKMAN units, weig… Show more

“…An IMU is a device that combines multiple sensors such as accelerometers, gyroscopes, and magnetometers. IMUs are often used in applications where knowing the orientation and motion of an object is important, as seen in [34] , [40] , [41] , [42] , [43] .…”

CYCLOPS: A cyclists’ orientation data acquisition system using RGB camera and inertial measurement units (IMU)

“…An IMU is a device that combines multiple sensors such as accelerometers, gyroscopes, and magnetometers. IMUs are often used in applications where knowing the orientation and motion of an object is important, as seen in [34] , [40] , [41] , [42] , [43] .…”

CYCLOPS: A cyclists’ orientation data acquisition system using RGB camera and inertial measurement units (IMU)

“…To make this information more accessible some low-cost devices have been developed to analyze the behavior of the environment. Some implementations integrate low-cost sensors and embedded systems to facilitate numerous applications [3] , [13] , [14] , [15] , [16] . Many prototypes are based on Arduino technology, an open source microcontroller [17] , to perform this task.…”

Low cost climate station for smart agriculture applications with photovoltaic energy and wireless communication

“…Davis et al [32] presented a balloon experiment of student-built, CubeSat form-factor payload based on Arduino or Raspberry Pi which measured the temperature and acceleration during the flight. Among examples unrelated to space applications, Arduino-based instruments were flown on balloons to measure the intensity of the ultraviolet (UV) light and the balloon's position and velocity using an integrated GPS unit [33] , as well as radiation and magnetic fields [34] . Despite the advantages of Arduino, the reliability and the accuracy of Arduino-based CubeSats under flight conditions, on balloons or in orbit, are not well examined.…”

High altitude balloon testing of Arduino and environmental sensors for CubeSat prototype