TS.15.01. VEHICLE
NOISE AND VIBRATION: GENERAL
Technical Session
Organizer: Toru Yamazaki
299.
A Study on the Direction for Development of Eco-friendly Direction
for Development of Eco-friendly Logistics Facility
Lee, Young Chul; Kim, Young Chan; Jang, kang seok
300.
A study on dynamic characteristics test of anti-vibration material
for shock and vibration reduction of railroad low vibration system
Seo, Hyosun; Kim, Young-chan; Jang, Kang-seok
1213.
Development of Vibration Test and Analysis Methods for Diesel Engine
Belt System
Velioglua, Sibel; Batanb, Hasan
1242.
Combustion Engine Noise – a Historical Review
Spessert, Bruno M.; Fischer, Martin; Kühn, Bernhard
1291.
Lane-Keeping Control Considering Sensor Noise Based On Improved
Artificial Potential Field
Wang, Huiran; Zhao, Linfeng; Jiang, Wuhua; Tan, Dongkui; Chen,
Wuwei
1292.
Study on Coordinated Control Strategy of Electric Vehicle AFS and
DYC Based on Phase Plane Method
Liang, Xiutian; Chen, Wuwei: Hu, Yanping; Xu, Yong; Wang, Xiao
1296.
A road traffic noise spectrum calculation method based on the noise
spectral characteristics of single vehicles
Yang, Weijun; Cai, Ming; Luo, Peng
1351.
Analytical method for vehicle interior noise using principal component
contribution -Contribution analysis of whole body vibration behavior
through separated measurement-
Yoshida, Junji; Isemura, Junki; Majima, Ryo
1413.
Analytical method for vehicle interior noise using principal component
contribution -Identification of resonance frequency in cabin at
the operational condition utilizing principal component transfer
function-
Isemura, Junki; Majima, Ryo; Yoshida, Junji
1443.
Modeling and experimental investigation on the vibration of main
drive chain in escalator
Ma, Xiaolong; Shi, Xi; Zhang, Jiaohua
1511.
Influence of mechanical wear on tyre noise
Jha, Niraj
Kumar; Ghosh, Prasenjit; Karthikeyan, G.; Madhav, L.; Mukhopadhyay,
R.
1577.
Development of Test-based Assessment for Perceived Vehicle Comfort
in Two Types of Vibration: Body Control and Ride Comfort Evaluation
Park, Hansol; Kang, Yeon June; Kim, Mookwon
1613.
Subsystems’ Layout Change Method based on Analytical SEA for
Vibration Reduction; Utilization for an Injection Pump of an Engine
Takeda, Akiyoshi; Ikeda, Kazumasa; Nakamura, Hiroki; Yamazaki,
Toru
1630.IP.
Research on passive vibration control of large honeycomb sandwich
panel structure
Xu, Xinyin; Li, Boyang
1731.
Assessment of whole-body vibration exposure using ISO2631- 1:2008
and ISO2631-5:2018 standards.
De la Hoz-Torres, María Luisa; Aguilar-Aguilera, Antonio
Jesus; Martínez-Aires, María Dolores; Ruiz, Diego
Pablo
1752.
Studies on squeak of vehicles’ seal strip
Li, Peiran;
She, Yangjia
1775.
Determination of Urban Cycling-Induced Hand-Arm Vibration and Mitigation
Cane, John; Gomez-Agustina, Luis
1786.
Predicting the Attenuation Characteristics of a Micro-vibration
Damper for Automobile Bodies using Transfer-function Synthesis
Nakamura,
Hiroki; Watanabe, Ryota; Kamo, Toshiaki; Hayakawa, Norikuni; Iikura,
Masahiko; Yamazaki, Toru
1837.
Relationship between hand-arm vibrations and subjective evaluation
by a magnitude estimation method
Laroche, Luc; Parizet, Etienne
1882.
Numerical prediction of interior noise due to fluctuation surface
pressure with an idealized side mirror
Shao, Jianwang; Zeng, Tao; Wu, Xian; Wang, Cheng
1959.
Optimization of Suspension Characteristics for Increasing Expected
Daily Exposure Durations in Vehicles According to ISO 2631-1 Standard
using Genetic Algorithms
Yavuz, Akif; Guney, Ahmet
2134.
Sound power minimization of a railway wheel by means of a modal-based
geometric optimization technique
Garcia-Andrés, X.; Gutiérrez-Gil, J.; Martínez-Casas,
J.; Denia, F.D.