Multifunkční volant Formule Student / Multiple-funktion steering wheel Formule Student

Paulus, Luboš

January 2011

The Master‘s thesis deals with a creating of display writers on multiple-function steering wheel Formule Student. It is mainly about dates transfered through RS232 or CAN bus from control unit of the Formule to microcontroller. First of all it is necessary to find out, which informations and a which way of displaying them are more useful and readable for drivers. This leads to another point - right choice of display writers, which will be used on the steering wheel. Creation of the design and construction of display device follows.

Minimization of Noise and Vibration Related to Driveline Imbalance using Robust Design Processes

Al-Shubailat, Omar

17 August 2013

Variation in vehicle noise, vibration and harshness (NVH) response can be caused by variability in design (e.g. tolerance), material, manufacturing, or other sources of variation. Such variation in the vehicle response causes a higher percentage of produced vehicles to have higher levels (out of specifications) of NVH leading to higher number of warranty claims and loss of customer satisfaction, which are proven costly. Measures must be taken to ensure less warranty claims and higher levels of customer satisfactions. As a result, original equipment manufacturers (OEMs) have implemented design for variation in the design process to secure an acceptable (or within specification) response. The focus here will be on aspects of design variations that should be considered in the design process of drivelines. Variations due to imbalance in rotating components can be unavoidable or costly to control. Some of the major components in the vehicle that are known to have imbalance and traditionally cause NVH issues and concerns include the crankshaft, the drivetrain components (transmission, driveline, half shafts, etc.), and wheels. The purpose is to assess NVH as a result of driveline imbalance variations and develop a tool to help design a more robust system to such variations.

program.

Java

quality engineering

quality

capability studies

manufacturing processes

manufacturing engineer

design engineer

sales

profit

customer concern

warranty

objectionable

Eigen functions

vectors

Eigen

Eigen values

identity

Euler

differential equations

differential

transfer case

shaft

driveline

static imbalance

dynamic imbalance

passenger

customer

driver inboard ear

driver outboard ear

steering wheel

seat track

variation

Gamma distribution

normal distribution

standard deviation

average

variance

mean

phasor

victor

scalar

linear system

LTI

linear time invariant

transfer function

output

input

microphone

accelerometers

tachometer

channels

order

frequency

frequency domain

time domain

convolution

Transformation

Fourier Transformer

Fourier

imaginary and real

logarithmic

decibel

sensitivity curves

run down

run up

two wheel drive

Four Wheel Drive

Nissan

Truck

OEM

Original Equipment Manufacturers

Data Acquisitions

Channels

Simulation

Six Sigma

variability

Design

Robust

sensitivity

Vibration

Imbalance

Noise

Harshness

NVH

Driveline