Published: Jul 1, 2018
Converted to Gold OA:
DOI: 10.4018/IJRAT.2018070101
Volume 6
Ruchira Teli, Suneel Kumar Prasad
Organizations are applying digitalization to increasing amounts of different organizational processes. The procurement sector is also changing and actively seeking better ways to enhance performance...
Show More
Organizations are applying digitalization to increasing amounts of different organizational processes. The procurement sector is also changing and actively seeking better ways to enhance performance such as the automation of workflow processes, for example, robotic process automation (RPA). To meet this clear demand, the automation of workflow processes in organizations has been a rising trend during the past few years. The author analyzes the potential of RPA along with the cognitive technologies robotic cognitive automation-based (RCA) value creation through knowledge work digitalization in the procurement sector.
Content Forthcoming
Add to Your Personal Library: Article
Cite Article
Cite Article
MLA
Teli, Ruchira, and Suneel Kumar Prasad. "Delivering Value in Procurement With Robotic Cognitive Automation (RCA) Services." IJRAT vol.6, no.2 2018: pp.1-11. http://doi.org/10.4018/IJRAT.2018070101
APA
Teli, R. & Prasad, S. K. (2018). Delivering Value in Procurement With Robotic Cognitive Automation (RCA) Services. International Journal of Robotics Applications and Technologies (IJRAT), 6(2), 1-11. http://doi.org/10.4018/IJRAT.2018070101
Chicago
Teli, Ruchira, and Suneel Kumar Prasad. "Delivering Value in Procurement With Robotic Cognitive Automation (RCA) Services," International Journal of Robotics Applications and Technologies (IJRAT) 6, no.2: 1-11. http://doi.org/10.4018/IJRAT.2018070101
Export Reference
![Mendeley](https://coverimages.igi-global.com/images/mendeley.png)
Published: Jul 1, 2018
Converted to Gold OA:
DOI: 10.4018/IJRAT.2018070102
Volume 6
Yuriy Kostyuchenko, Anna Kozlova, Dmytro Movchan, Olga Sedlerova, Maxim Yuschenko
The problem of uncertainty analysis in complex multi-component systems is considered. The problem of decision making with uncertainty in tasks modeling carbon balance and the analysis of greenhouse...
Show More
The problem of uncertainty analysis in complex multi-component systems is considered. The problem of decision making with uncertainty in tasks modeling carbon balance and the analysis of greenhouse gas (GHG) emissions using satellite tools was considered. Approaches to decision making under uncertainty are described in terms of interval, fuzzy, and stochastic assessments. Different approaches and algorithms to calculate carbon and GHG emissions are described. For every algorithm, errors and uncertainties are analyzed and estimated. Algorithms for uncertainty analysis based on integrated interlinked models of the system are presented. Algorithms for the analysis of components of vegetation productivity assessment using satellite data are proposed. Uncertainty component analysis allows the understanding of important properties of the system studied, and its feedback as to its anthropogenic load and impact on the climate. It was demonstrated that the comprehensive analysis of uncertainties allows not only the reduction of errors, but new knowledge about the studied systems.
Content Forthcoming
Add to Your Personal Library: Article
Cite Article
Cite Article
MLA
Kostyuchenko, Yuriy, et al. "On the Uncertainty Control in the Complex Multiphysics Systems in the Task of Multi-Scale Stochastic GHG and Carbon Balance Modeling." IJRAT vol.6, no.2 2018: pp.12-41. http://doi.org/10.4018/IJRAT.2018070102
APA
Kostyuchenko, Y., Kozlova, A., Movchan, D., Sedlerova, O., & Yuschenko, M. (2018). On the Uncertainty Control in the Complex Multiphysics Systems in the Task of Multi-Scale Stochastic GHG and Carbon Balance Modeling. International Journal of Robotics Applications and Technologies (IJRAT), 6(2), 12-41. http://doi.org/10.4018/IJRAT.2018070102
Chicago
Kostyuchenko, Yuriy, et al. "On the Uncertainty Control in the Complex Multiphysics Systems in the Task of Multi-Scale Stochastic GHG and Carbon Balance Modeling," International Journal of Robotics Applications and Technologies (IJRAT) 6, no.2: 12-41. http://doi.org/10.4018/IJRAT.2018070102
Export Reference
![Mendeley](https://coverimages.igi-global.com/images/mendeley.png)
Published: Jul 1, 2018
Converted to Gold OA:
DOI: 10.4018/IJRAT.2018070103
Volume 6
Richard T Stone, Thomas Michael Schnieders, Peihan Zhong
The focus of this article is perception affects and enhancement during ground robotic tele-operation. Three independent factors were studied, namely scale perception, distance perception, and...
Show More
The focus of this article is perception affects and enhancement during ground robotic tele-operation. Three independent factors were studied, namely scale perception, distance perception, and orientation awareness. Enhancements for each factor was proposed, implemented, and evaluated. The results show that under remote perception conditions, where the operator was separated from the environment where the navigation took place, both distance perception and scale perception were significantly impaired as compared with that obtained under direct perception conditions. In addition, for each of the proposed enhancements designed for each critical factor, the corresponding factor was significantly improved. The broader impacts of this work can be applied to various human-robot collaborated applications, such as urban search and rescue. Applying the proposed enhancements will allow the operators to have fewer failures through hallways, doorways, or maneuvering around obstacles, as well as allowing a more accurate understanding of the area's layout when a map is not available.
Content Forthcoming
Add to Your Personal Library: Article
Cite Article
Cite Article
MLA
Stone, Richard T., et al. "Perception Effects in Ground Robotic Tele-Operation." IJRAT vol.6, no.2 2018: pp.42-61. http://doi.org/10.4018/IJRAT.2018070103
APA
Stone, R. T., Schnieders, T. M., & Zhong, P. (2018). Perception Effects in Ground Robotic Tele-Operation. International Journal of Robotics Applications and Technologies (IJRAT), 6(2), 42-61. http://doi.org/10.4018/IJRAT.2018070103
Chicago
Stone, Richard T., Thomas Michael Schnieders, and Peihan Zhong. "Perception Effects in Ground Robotic Tele-Operation," International Journal of Robotics Applications and Technologies (IJRAT) 6, no.2: 42-61. http://doi.org/10.4018/IJRAT.2018070103
Export Reference
![Mendeley](https://coverimages.igi-global.com/images/mendeley.png)
IGI Global Open Access Collection provides all of IGI Global’s open access content in one convenient location and user-friendly interface
that can easily searched or integrated into library discovery systems.
Browse IGI Global Open
Access Collection
All inquiries regarding IJRAT should be directed to the attention of:
Submission-Related InquiriesDan Zhang
Editor-in-Chief
International Journal of Robotics Applications and Technologies
E-mail:
dzhang99@york.ca
Author Services Inquiries
For inquiries involving pre-submission concerns, please contact the Journal Development Division:
journaleditor@igi-global.comOpen Access Inquiries
For inquiries involving publishing costs, APCs, etc., please contact the Open Access Division:
openaccessadmin@igi-global.comProduction-Related Inquiries
For inquiries involving accepted manuscripts currently in production or post-production, please contact the Journal Production Division:
journalproofing@igi-global.comRights and Permissions Inquiries
For inquiries involving permissions, rights, and reuse, please contact the Intellectual Property & Contracts Division:
contracts@igi-global.comPublication-Related Inquiries
For inquiries involving journal publishing, please contact the Acquisitions Division:
acquisition@igi-global.comDiscoverability Inquiries
For inquiries involving sharing, promoting, and indexing of manuscripts, please contact the Citation Metrics & Indexing Division:
indexing@igi-global.com Editorial Office
701 E. Chocolate Ave.
Hershey, PA 17033, USA
717-533-8845 x100