Specifications

mathematical model of power train. The paper will applied fuzzy control theory to the shift

schedule. The control rules is determined based on the different operating states of tractor. Slip

rate which is a important indicator to reflect tractor operation will be introduced as control

parameters to research the control strategy of tractor's powershift antomatic transmisson. The

simulation result shows that the method can effectively avoid shift circulation and reduce the

shift frequency, which improve the dynamic performance and fuel economy of tractors. © (2013)

Trans Tech Publications, Switzerland.

Number of references: 7

Main heading: Tractors (truck)

Controlled terms: Fuel economy - Fuzzy control - Materials handling equipment -

Mathematical models - Tractors (agricultural)

Uncontrolled terms: Control parameters - Control rules - Control strategies -

Dynamic performance - Fuzzy control strategy - Load fluctuations - Operating state -

Powershift transmissions - Shift schedule - Slip rates

Classification code: 521 Fuel Combustion and Flame Research - 663.1 Heavy Duty Motor

Vehicles - 691.1 Materials Handling Equipment - 921 Mathematics

DOI: 10.4028/www.scientific.net/AMM.241-244.1959

Database: Compendex

35.

Accession number: 20130415941888

Title: Study on optical dot gain model based on point spread and probability methods

Authors: Xu, Jun Fei1 ; Xu, Jinlin1 ; Xu, Yongchi2/;;

Author affiliation:

1 Research Center of Printing Technology, Zhejiang Industry and Trade Vocational College, 17

Fudong Road, Wenzhou 325003, China

2 School of Printing and Packing Engineering, Xi'an University of Technology, 5 South Jinhua

Road, Xi'an 710048, China

Corresponding author: Xu, J. F. (feijunxu@126.com)

Source title: Applied Mechanics and Materials

Abbreviated source title: Appl. Mech. Mater.

Volume: 271

Issue: PART 1

Monograph title: Frontiers of Manufacturing and Design Science III

Issue date: 2013

Publication year: 2013

Pages: 1434-1440

Language: English

ISSN: 16609336

E-ISSN: 16627482

ISBN-13: 9783037855782

Document type: Conference article (CA)

Conference name: 3rd International Conference on Frontiers of Manufacturing and Design

Science, ICFMD 2012