no |
title |
author |
magazine |
year |
volume |
issue |
page(s) |
type |
1 |
A body-shaped lumbar-sacral support for improving car-seat comfort
|
Naddeo, Alessandro |
|
|
68 |
s1 |
p. S129-S138 |
article |
2 |
A method for postural critical factors checking: The case of library chairs
|
Fiorillo, Iolanda |
|
|
68 |
s1 |
p. S87-S100 |
article |
3 |
A model-based approach for the analysis of aircraft seating comfort
|
Vanacore, Amalia |
|
|
68 |
s1 |
p. S251-S255 |
article |
4 |
A multifactorial approach to specify comfortable rail seats
|
Smith, Jordan |
|
|
68 |
s1 |
p. S197-S208 |
article |
5 |
Analysis and modeling of human seat interaction with a focus on the upper body and backrest using biomechanics and contact mechanics
|
Liu, Yuezhi (Sean) |
|
|
68 |
s1 |
p. S161-S182 |
article |
6 |
An extended model of the ISO-2631 standard to objectify the ride comfort in autonomous driving
|
Burkhard, Georg |
|
|
68 |
s1 |
p. S37-S45 |
article |
7 |
Comfort and discomfort during smartphone use on a bed
|
Udomboonyanupap, Sumalee |
|
|
68 |
s1 |
p. S245-S249 |
article |
8 |
Comfort driven design of innovative products: A personalized mattress case study
|
Naddeo, Alessandro |
|
|
68 |
s1 |
p. S139-S150 |
article |
9 |
Concept evaluation of a new aircraft passenger privacy bubble using virtual prototyping: A Human-Centered Design framework
|
Torkashvanda, G. |
|
|
68 |
s1 |
p. S231-S238 |
article |
10 |
Designing a floor plan using aircraft seat comfort knowledge by aircraft interior experts
|
Anjani, Shabila |
|
|
68 |
s1 |
p. S7-S18 |
article |
11 |
Desktop lighting for comfortable use of a computer screen
|
Han, Lu |
|
|
68 |
s1 |
p. S209-S221 |
article |
12 |
Driver seat comfort for level 3-4 autonomous vehicles
|
Mansfield, Neil J. |
|
|
68 |
s1 |
p. S111-S118 |
article |
13 |
Effect of scent on comfort of aircraft passengers
|
Yao, Xinhe |
|
|
68 |
s1 |
p. S273-S280 |
article |
14 |
Human behaviour should be recorded in (dis)comfort research
|
Smulders, M. |
|
|
68 |
s1 |
p. S289-S294 |
article |
15 |
Incorporating driver activity in holistic comfort models
|
Moertl, Peter |
|
|
68 |
s1 |
p. S119-S128 |
article |
16 |
Introduction to the special issue on comfort: A review of 26 papers from the International Comfort Congress 2019
|
Vink, Peter |
|
|
68 |
s1 |
p. S1-S5 |
article |
17 |
Investigating the effects of two fragrances on cabin comfort in an automotive environment
|
Gentner, Alexandre |
|
|
68 |
s1 |
p. S101-S110 |
article |
18 |
Model construction and analysis of ride comfort for high-speed railway seat cushions
|
Tang, Zhi |
|
|
68 |
s1 |
p. S223-S229 |
article |
19 |
Objective and subjective evaluation of a new airplane seat with an optimally pre-shaped foam support
|
Wang, Xuguang |
|
|
68 |
s1 |
p. S257-S271 |
article |
20 |
PCQ: Preferred Comfort Questionnaires for product design
|
Anjani, Shabila |
|
|
68 |
s1 |
p. S19-S28 |
article |
21 |
Perceived onboard passengers’ experience: Flight attendants’ point of view
|
Torkashvand, G. |
|
|
68 |
s1 |
p. S239-S243 |
article |
22 |
Posture, movement, and aircraft passengers: An investigation into factors influencing in-flight discomfort
|
Sharafkhani, Mahnaz |
|
|
68 |
s1 |
p. S183-S195 |
article |
23 |
School combo-desk comfort assessment: A method for weighing postural factors that affect the overall perceived comfort
|
Califano, Rosaria |
|
|
68 |
s1 |
p. S47-S57 |
article |
24 |
Seat pitch and comfort of a staggered seat configuration
|
Liu, Zhihui |
|
|
68 |
s1 |
p. S151-S159 |
article |
25 |
Smart heating panels to increase thermal comfort and efficiency
|
Backes, Damian |
|
|
68 |
s1 |
p. S29-S35 |
article |
26 |
Study of the relationships between articular moments, comfort and human posture on a chair
|
Cappetti, Nicola |
|
|
68 |
s1 |
p. S59-S68 |
article |
27 |
The effect of the standing angle on reducing fatigue among prolonged standing workers
|
Liu, Zhihui |
|
|
68 |
s1 |
p. S281-S287 |
article |
28 |
The visual categorization of production automotive seats on descriptors of comfort
|
Erol, Tugra |
|
|
68 |
s1 |
p. S69-S85 |
article |