Title
Integration of functions within STUAS operator crew on board royal Netherlands Navy ships
Author
van Maanen, P.P.
Holleman, B.
Kerbusch, P.
van der Kleij, R.
Smets, N.
Smit, S.
Rakhorst-Oudendijk, M.
Publication year
2014
Abstract
Many reasons exist for the military to favor unmanned systems and future missions are envisioned that require longer, more diverse and more frequent deployment of UAVs with increased mission precision. This will also result in a much higher demand on operator crews working with UAVs. With the current pressure on operational budgets, a more effective use of automation is needed in order to answer this demand. This frees operator capacity and enables integration of operator crew functions. This paper describes a case study that was performed to evaluate function integration within a Small Tactical Unmanned Aerial System (STUAS) operator crew on board a Royal Netherlands Navy ship during the flight phase, with the goal to extend the sensory capabilities of the ship: the Air Vehicle Operator (AVO) and the Payload Operator (PO) tasks allocated to one operator. Also a combined AVO/PO-interface was provided to this one operator and was evaluated. Results show that, for simulated maritime scenario as used in this evaluation study, integration of STUAS functions and interfaces can still lead to effective operations. Types of missions and flight phase operator tasks not addressed in this study remain subject of future study. This study should therefore be regarded as a first step of the full analysis of the possibilities for integration of STUAS functions and interfaces together with the enabling automation and support. © 2014 IEEE. Organisation: ICUAS Association
Subject
Human Performances
PCS - Perceptual and Cognitive Systems
ELSS - Earth, Life and Social Sciences
Defence Research
Marine
Defence, Safety and Security
Aircraft
Airport ground equipment
Budget control
Function evaluation
Integration
Ships
Unmanned vehicles
Evaluation study
Flight phase
Function integration
Future mission
Integration of functions
Royal Netherlands Navy
Unmanned aerial systems
Unmanned system
Integral equations
To reference this document use:
http://resolver.tudelft.nl/uuid:86fa0840-d2ef-44cb-a6ba-44bd8407c900
DOI
https://doi.org/10.1109/icuas.2014.6842294
TNO identifier
513378
Publisher
IEEE Computer Society
ISBN
9781479923762
Source
2014 International Conference on Unmanned Aircraft Systems, ICUAS 2014, 27 May 2014 through 30 May 2014, Orlando, FL, 524-533
Article number
6842294
Document type
conference paper