Abstract
The test software of fine operation ability of directional motion, which is used for handle control, is independently developed on the basis of the C++ program development platform for the discrete-type operation missions such as the spatial manipulator teleoperation, crane, excavator, etc. It aims to test the fine operation ability of directional motion of the operators, including the astronaut. The reliability and validity test results of the software indicate the software has good internal consistency reliability and retest reliability and can well differentiate the operators who have the training experience of manipulator teleoperation and the operators who are not trained. In addition, there is a significant correlation between the test and the operator’s age. The fine operation ability increases progressively with the increase of the age.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Zhao WF (2012) Advancement in the fine motor control ability of the elder. Chin J Gerontol 32(15):3348–3349
Li BL, Lin L, Dong Q et al (2002) The development of fine motors and their relations to children’s academic achievement. Acta Psychologica Sinica 34(5):52–57
Liu PP, Wang JL (2013) The meaning and measurement of the fine motion of hand. Med J Chin People’s Armed Police Forces 24(7):639–640
Tang GJ, Zhou JY, Zhang B et al (2011) A survey of teleoperator rendezvous and docking technology. Manned Spaceflight 17(2):38–44
Shayler D (2000) Disasters and accidents in manned spaceflight. Springer
Manzey D, Lorenz B, Schiewe A et al (1995) Dual-mission performance in space: results from a single-case study during a short-term space mission. Human Factors: J Human Factors Ergon Soc 37(4):667–681
Manzey D, Lorenz B, Poljakov V (1998) Mental performance in extreme environments: results from a performance monitoring study during a 438-day spaceflight. Ergonomics 41(4):537–559
Fowler B, Bock O, Comfort D (2000) Is dual-mission performance necessarily impaired in space? Human Factors: J Human Factors Ergon Soc 42(2):318–326
Seidler RD, Reuter-Lorenz PA, Mulavara AP et al (2014) Spaceflight effects on neurocognitive performance: extent, longevity, and neural bases (NeuroMapping)
Forman RE (2011) Objective performance metrics for improved space teleroboticstraining. Massachusetts Institute of Technology
Henderson SE (1992) Motion assessment battery for children[M]. Psychological Corporation, London
Fowler B, Meehan S, Singhal A (2008) Perceptual-motor performance and associated kinematics in space. Hum Factors 50(6):879–892
Summerlin LB (1977) Skylab, classroom in space
Wang RZ (2009) The review of the effectiveness of various psychological tests in European and American pilot selection. J Civil Aviat Flight Univ China 20(3):17–21
Wu GC (1995) Assessment of flight ability from cognitive psychological point of view. Chin J Aviat Med 6(2):120–124
WEI HC (2013) The application research of psychomotor ability in civilaviation pilots selection. The Fourth Military Medical University
Hui DD, Li XJ, Wen ZH et al (2014) Development and application of psychomotor ability test system. Comput Technol Dev 24(12):180–182
Acknowledgments
This work is supported by the Equipment Advance Foundation of National Key Laboratory, No. 614222201060317.
Compliance with Ethical Standards
The study was approved by the Logistics Department for Civilian Ethics Committee of China Astronaut Research and Training Center.
All subjects who participated in the experiment were provided with and signed an informed consent form.
All relevant ethical safeguards have been met with regard to subject protection.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Tang, W., Xiao, Y., Xu, F., Wang, C. (2020). Development and Application of Test Software of Fine Operation Ability of Directional Motion. In: Long, S., Dhillon, B. (eds) Man–Machine–Environment System Engineering . MMESE 2019. Lecture Notes in Electrical Engineering, vol 576. Springer, Singapore. https://doi.org/10.1007/978-981-13-8779-1_40
Download citation
DOI: https://doi.org/10.1007/978-981-13-8779-1_40
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-13-8778-4
Online ISBN: 978-981-13-8779-1
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)