This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Simulation Techniques for Determining Motorcycle Controllability Class according to ISO 26262
Technical Paper
2018-32-0060
ISSN: 0148-7191, e-ISSN: 2688-3627
This content contains downloadable datasets
Annotation ability available
Sector:
Language:
English
Abstract
The ISO 26262 standard specifies the requirement for functional safety of electrical and electronic systems within road vehicles. We have accumulated case studies based on actual riding tests by subjective judgment of expert riders to define a method for determining the controllability class (C class). However, the wide variety of practical traffic environments and vehicle behaviors in case of malfunction make it difficult to evaluate all C classes in actual running tests. Furthermore, under some conditions, actual riding tests may cause unacceptable risks to test riders. In Part 12 Annex C of ISO/DIS 26262, simulation is cited as an example of a technique for comprehensive evaluations by the Controllability Classification Panel.
This study investigated the usefulness of mathematical simulations for evaluating the C class of a motorcycle reproducing a malfunction in either the front or rear brakes. To estimate the rate of rate of successful harm avoidance in this scenario, which is considered useful in judging the C class, we calculated whether a representative rider can stop while leaving a safe distance to a hazardous object. For the calculations, we used time-series waveforms of the brake actuation force described by parameters such as the brake reaction time and the maximum brake actuation force. These parameters were chosen from the data that riders’ compensatory control actions were recorded during the actual riding tests. The rates of successful harm avoidance obtained from the calculations showed the almost same tendency as the results of the actual riding tests. This agreement indicated the rate of successful harm avoidance can be estimated with simulations that use brake operation waveforms to model the compensatory control action.
Authors
Citation
Kawakoshi, M., Kobayashi, T., and Hasegawa, M., "Simulation Techniques for Determining Motorcycle Controllability Class according to ISO 26262," SAE Technical Paper 2018-32-0060, 2018, https://doi.org/10.4271/2018-32-0060.Data Sets - Support Documents
| Title | Description | Download |
|---|---|---|
| Unnamed Dataset 1 | ||
| Unnamed Dataset 2 | ||
| Unnamed Dataset 3 | ||
| Unnamed Dataset 4 | ||
| Unnamed Dataset 5 | ||
| Unnamed Dataset 6 | ||
| Unnamed Dataset 7 | ||
| Unnamed Dataset 8 | ||
| Unnamed Dataset 9 | ||
| Unnamed Dataset 10 | ||
| Unnamed Dataset 11 | ||
| Unnamed Dataset 12 | ||
| Unnamed Dataset 13 |
Also In
References
- International Standard 2011
- Hasegawa , M. and Kaneko , T. Examination of Hazard Analysis and Risk Assessment and Exposure Research in the Real Traffic Situation of ISO 26262 for Motorcycles SAE Int. J. Passeng. Cars-Electron. Electr. Syst. 10 1 95 101 2017 10.4271/2016-32-0058
- Arai , Y. , Hasegawa , M. , and Harigae , T. Research on Method for Classifying Injury Severity Using Motorcycle Accident Data for ISO 26262 SAE Int. J. Engines 9 1 397 404 2016
- Arai , Y. , Hasegawa , M. , and Harigae , T. Research on Severity Class Evaluation Based on Various Crash Situations Involved with Motorcycles for ISO 26262 SAE Technical Paper 2016-32-0057 2016 10.4271/2016-32-0057
- Kawakoshi , M. , Kobayashi , T. , and Hasegawa , M. Basic Characteristics of Motorcycle Riding Maneuvers of Expert Riders and Ordinary Riders SAE Technical Paper 2014-32-0025 2014 10.4271/2014-32-0025
- Kawakoshi , M. , Kobayashi , T. , and Hasegawa , M. 2015
- Kawakoshi , M. , Kobayashi , T. , and Hasegawa , M. Construction of an ISO 26262 C Class Evaluation Method for Motorcycles SAE Int. J. Passeng. Cars-Electron. Electr. Syst. 10 1 102 112 2017 10.4271/2016-32-0059
- Kawakoshi , M. , Kobayashi , T. , and Hasegawa , M. 2017
- Draft International Standard 2016
- BikeSim Overview https://www.carsim.com/products/bikesim/