Engineering:Chasqui I

Chasqui I

Chasqui I
Mission type	Scientific
Operator	National University of Engineering
Website	www.chasqui.uni.edu.pe
Spacecraft properties
Bus	1U CubeSat
Launch mass	1 kilogram (2.2 lb)
Start of mission
Launch date	August 18, 2014 (2014-08-18)
Orbital parameters
Reference system	Geocentric
Regime	Low Earth

Chasqui I is a one-kilogram nanosatellite^[1] developed by students at Peru's National University of Engineering (UNI) based on CubeSat technology. Developed with assistance from the Russian Southwest State University (SWSU), Kursk, it was part of an educational project to acquire the experience and ability in developing satellites.

The nanosatellite was launched from the International Space Station during a spacewalk on August 18, 2014. The concept satellite was equipped with two cameras—one for visible light and one for infrared—to take photos of Earth.^[2]

The name of the project refers to the chasqui, who served as messengers in the Inca Empire.

Most of UNI's objectives in satellite technology were completed through the CubeSat nanosatellites. Plans for Chasqui I included taking pictures of the Earth, with transmission to a ground station.^[3]

• Design of the project profile
• Funding
• Capacity building
• Implementation of the laboratory
• Development of the project
• Testing integration
• Guidelines
• Operation

Chasqui I is a student research project nanosatellite, weighing less than 1 kg and having a volume of up to 1 Lt. It was designed to image Peruvian land using a CMOS camera that seeks to distinguish between fertile land and uncultivated areas. As a student project, Chasqui I was constructed using commercial components. It uses amateur radio frequency, making it possible to be located throughout the country. The Chasqui I students also developed a ground station that allows for remote monitoring of the satellite, as well as satellites of other universities.

Peru has large geographical diversity, which makes it very difficult to constantly monitor the situation of natural and man-made events, such as permanent snow melting, deforestation of the Amazon, the protection of habitats of endangered species, combating narco-terrorism, surveillance of borders and territorial sea, and the prediction and mitigation of natural disasters. UNI, with its project Chasqui I, are taking steps in the process of addressing problems such as crop monitoring and telecommunications areas.

The mechanical structure (EMEC) module was responsible for reviewing the state of field, comparing existing nanosatellite designs, and manufacturing the satellite based on the standard CubeSat format.

This subsystem manages and monitors information from all subsystems of Chasqui I. It contains a processor called the on-board computer (OBC), which fulfills the computing functions of all other subsystems.

The Power subsystem is responsible for receiving, processing, storing, and distributing power to other subsystems in the satellite. The objective of this subsystem is to ensure the necessary supply of electricity.

The Thermal Control subsystem is responsible for maintaining the proper temperature of the satellite components. The most critical task of this subsystem is to maintain the batteries within their operating limits of 0 °C–20 °C.

This subsystem obtains photographs of the Earth using two cameras: one in the visible and the other in the near-infrared. Digital information is collected by the CCIM and then sent to the ground station (ESTER). Additionally, the module is responsible for processing digital images obtained.

• stabilizes the nanosatellite after leaving the deployer through reduction (within 0.1rad / s) and control of angular velocities;
• maintains a pointing accuracy of 3° for taking pictures of Peru and, if technically possible, having a wide coverage of South America through maneuvers of 30° roll and 30° pitch;
• maintains a less demanding pointing accuracy (e.g. 20°) to enable data exchange between the satellite and ground station.

The SDCA enables Chasqui I to determine its attitude, calculate the correction required to achieve the desired orientation, and execute the necessary maneuvers using the actuators. The attitude determination system uses magnetometers, Sun sensors, and attitude determination algorithms for estimating positions and angular velocities. Using GPS and gyroscopes as sensors for determining attitude was also evaluated. The attitude control system uses electromagnetic coils and permanent magnets as actuators, forming what are known as magnetorquers. The magnetorquers are especially important for the stabilization of the nanosatellite once it leaves the deployer. The inclusion of the permanent magnet creates a system of active-passive control. The use of magnetic materials and magnetic hysteresis were also evaluated.{{citation needed|date=September 2022}

• Follow-up: radio for or hear the beacon or satellite for its position
• Telemetry: request state variables (such as temperature or voltage) to monitor and validate the satellite orbit calculation
• Commando: order to extend the satellite antenna, reset the system, or take and send photos

This module aims to simulate the trajectory of Chasqui I, which is calculated solving differential equations of motion in parallel using two programs: DelPhi and MATLAB.

• Obtain nonlinear equations of motion by considering the Earth as an inertial reference system, the quadrupole term of the gravitational potential, and using Newton's second law
• Solve the equations of motion (energy remaining constant) using a Runge-Kutta method of order 4
• Carry out trajectory simulations Chasqui I using MATLAB

This module was responsible for the assembly of all the satellite components such as circuit boards, cameras, batteries, antennas, sensors, and magnetorquers. Subsequent goals included optimizing surfaces, volumes, masses; finding the center of mass; planning and conducting standardized testing requirements; and performing field tests.

• List of CubeSats

• National University of Engineering Home of the public university located in Lima Peru.
• CTIC – UNI Center for Information & Communication Technologies (CTIC-UNI).
• Project Official Site Chasqui 1 All information relating to the project.

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