Journal of Space Science and Technology

Journal of Space Science and Technology

Journal of Space Science and Technology is an open access double-blind peer-reviewed quarterly journal, owned, managed and published by IAS since 2008. The journal publishes original and high-quality peer-reviewed papers containing significant results relevant to all aspects of Space System Engineering, Space Operation and Applications, Commerce, Management, Space Law, Space Sciences and Exploration and Investigating Space Radiation.


Journal Title

Journal of Space Science and Technology

P-ISSN

2008-4560

E-ISSN

2423-4516

Frequency

Quarterly

Editor-in-Chief

Reza Ebrahimi, Ph.D.

Language 

Persian with English Abstracts

Plagiarism Checker

Hamanandjo, iThenticate

Peer Review Policy

Double-blind

Article Processing Charges

No APC (Free)

Average Review Time

3 Months

Acceptance Rate

30%

Owner & Publisher

IAS

The Journal of Space Science and Technology is now accepting original research papers in English also featuring a swift review prosses


          

 

Keywords Cloud

  • Attitude control
  • satellite
  • Genetic Algorithm
  • optimization
  • Space Radiation
  • Reaction wheel
  • Conceptual design
  • Uncertainty
  • Remote Sensing
  • system design
  • numerical simulation
  • Microgravity
  • Satellite attitude control
  • Spacecraft
  • Kalman Filter
  • Simulation
  • Launch Vehicle
  • Optimal control
  • GPS
  • Multidisciplinary design optimization
  • Swirl injector
  • Sounding rocket
  • Reliability
  • Optimal guidance
  • Reaction wheels
  • Pitch program
  • Guidance law
  • CubeSat
  • Extended Kalman Filter
  • Air bearing
  • Thruster
  • Monopropellant thruster
  • Satellite Constellations
  • Attitude determination
  • Nozzle
  • remote sensing satellite
  • Sensitivity analysis
  • Liquid Propellant Engine
  • guidance
  • Star tracker
  • LEO satellite
  • attitude estimation
  • Low thrust
  • Finite Element
  • heat transfer
  • flexible spacecraft
  • Saturation
  • star sensor
  • INS
  • Helmholtz coil
  • TLE
  • Inertial Navigation System
  • Outer space
  • fault detection
  • Stability Analysis
  • Sliding mode control
  • Proportional navigation
  • Geostationary orbit
  • Sovereignty
  • atomization
  • Aerodynamic heating
  • manned spacecraft
  • Microstructure
  • Transverse flow
  • image processing
  • time series
  • State dependent riccati equation
  • Neural Network
  • Star catalog
  • Reentry
  • Spray cone
  • Solar Cell
  • Fuzzy logic
  • Modeling
  • Ground station
  • Displacement damage
  • Radiation
  • GEO satellite
  • Inertial Navigation
  • Numerical analysis
  • Space Capsule
  • Hypersonic Flow
  • spacecraft formation flying
  • Calibration
  • Magnetometer
  • vibration
  • Machine Learning
  • Electrical power subsystem
  • Robust Control
  • Composite
  • Sliding mode
  • launcher
  • LQR
  • Design optimization
  • Hydrogen peroxide
  • Catalyst
  • Microsatellite
  • Space
  • Terminal sliding mode
  • Artificial Neural Networks
  • cryogenic
  • Space law
  • Artificial Neural Network
  • Numerical modeling
  • injection
  • Responsibility
  • design algorithm
  • orbital mechanics
  • IMU
  • design requirements
  • Sandwich panels
  • Capillary injector
  • decomposition chamber
  • EKF
  • Radiation damage
  • Starlink
  • growth
  • Orbit Determination
  • simulator
  • heat flux
  • Combustion chamber
  • Orbital maneuver
  • Plasma antenna
  • Stereo
  • Fault Isolation
  • UDF
  • Nanosatellite
  • Required velocity
  • Quantitative feedback theory
  • Visual Navigation
  • payload
  • GEANT4
  • upper stage
  • Satellite subsystems
  • Thrust vector control
  • Monopropellant
  • Cost
  • Solid Rocket Motor
  • Satellite remote sensing
  • Recursive least squares
  • thermal control
  • solar array
  • Cold gas thruster
  • Fault-tolerant control
  • imaging payload
  • Antenna Pointing Mechanism
  • Reconfiguration
  • Uncertainty and actuator saturation
  • Gyro calibration
  • gimbal control moment gyro
  • Positioning
  • LEO
  • Non-interfering architecture
  • Model predictive Control
  • TEC
  • prediction
  • Initial alignment
  • Thrust
  • separation system
  • optimal trajectory
  • State control
  • Propulsion System
  • Collaborative design
  • Sloshing
  • Positioning System
  • Sun simulator
  • redundancy
  • Bipropellant propulsion system
  • Primary breakup
  • Space weather
  • Deep Learning
  • Asteroid Apophis
  • Launch abort system
  • STK software
  • Space Traffic Management
  • Position determination
  • Flexible satellite
  • Shooting Method
  • Adaptive attitude control
  • Communication satellite
  • Space industry
  • Pulse-Width Pulse-Frequency Modulator
  • HZETRN
  • Control Allocation
  • space launch vehicle
  • breast cancer
  • linear Instability
  • Turbulent Flow
  • Attitude determination and control subsystem
  • LEO Orbit
  • Nonlinear Quadratic Tracking (NQT)
  • space structures
  • Optimized environment
  • CanSat
  • Integrated Navigation
  • Magnetic field
  • sensitivity matrix
  • Hardware in the loop
  • Differential flatness
  • PSO optimization