| [Jrnl 1] | PARSECS: A Predictable Data Communication System for Smart Sensors and Hard Real-Time Applications |
 | Author(s): Micea, Mihai Victor; Carstoiu, Gabriel N.; Ungurean, Lucian; Chiciudean, Dan; Cretu, Vladimir Ioan; Groza, Voicu In: IEEE Transactions on Instrumentation and Measurement Volume 59, Issue 11 Publisher: IEEE Nov. 2010 Pages: 2968 - 2981, ISSN 0018-9456, DOI: 10.1109/TIM.2010.2046363 Indexed: ISI Web of Science, Thomson Reuters (WOS: 000283440200022), IF: 1.214 14 |
| [+] Keywords | [+] Abstract | Cover picture | Journal info | IEEE Index Record (Inspec) Communication protocols; Hard real-time (HRT); Predictability; Serial peripheral interface (SPI); Smart sensors; Time triggered This paper studies the problem of data communication protocols for multiprocessor smart sensors and embedded applications with hard real-time (HRT) or critical requirements. We propose a time-triggered communication interface and set of protocols, called Predictable ARchitecture for Sensor Communication Systems (PARSECS), specifically designed to sustain, at low costs and complexity, the predictable operation of such HRT systems. The general interface architecture, data format, and communication protocols are discussed, along with a case study-the implementation of PARSECS on the full-duplex serial peripheral interface for the COllaborative Robotic Environment-the Timisoara eXperiment (CORE-TX) smart sensors platform. Its predictability, timeliness, and overall performance evaluation and validation are presented in detail based on experimental results and measurements. A comparative study with some of the most prominent systems in the field is also provided. |
| 4 | Citations in total (with a cummulated IF: 2.614) |
| [Jrnl 4] | H. Lin, C. Wei, H. Chen, "Cell quality measurement using cloud computing in case of NiCd/NiMH battery study", Adv. Compos. Lett., vol. 29, Sage Publications, UK, Feb. 2020, ISSN 0963-6935, DOI: 10.1177 /2633366X19898193. [Indexed: ISI Web of Science, Clarivate Analytics]. |
| [Jrnl 3] | J. Rivera-Mejia, J. E. Villafuerte-Arroyo, J. Vega-Pineda, R. Sandoval-Rodriguez, "Comparison of Compensation Algorithms for Smart Sensors With Approach to Real-Time or Dynamic Applications", IEEE Sens. J, vol. 15 (12), IEEE, USA, Dec. 2015, pp. (7071 - 7080), ISSN 1530-437X, DOI: 10.1109/JSEN.2015.2469279. [Indexed: ISI Web of Science, Thomson Reuters]. |
| [Conf 2] | J. Rivera-Mejia, J. E. Villafuerte-Arroyo, J. Vega-Pineda, "Evaluation of the Progressive Polynomial Compensation Algorithm for Dynamic or Real-Time Applications", in Proc. 30-th IEEE Instrum. Meas. Tech. C, I2MTC 2013, IEEE, Minneapolis, USA, 06-09 May., 2013, pp. (861 - 865), ISBN 978-1-4673-4621-4, ISSN 1091-5281, DOI: 10.1109/I2MTC.2013.6555537. [Indexed: ISI Web of Science, Thomson Reuters]. |
| [Jrnl 1] | M. Nahas, "Applying Eight-to-Eleven Modulation to reduce message-length variations in distributed embedded systems using the Controller Area Network (CAN) protocol", Canadian J Electrical Electron. Eng., vol. 2 (7), AM Publishers Corporation, Canada, Jul. 2011, pp. (282 - 293), ISSN 1923-0540. |
