Jantzen, C., Amy-Chinn, D., Ostergaard, P. (2006a). Doing and meaning: Towards an integrated approach to the study of women”s relationship to underwear. Journal of Consumer Culture, 6(3), 379-401.
 Jantzen, C., Østergaard, P., Sucena Vieira C. M. (2006b). Becoming a woman to the backbone Lingerie consumption and the experience of feminine identity, Journal of Consumer Culture, 6(2), 177-202.
 Kowalski K., Janicka J., Massalska-Lipinska T., Nyka M. (2010). Impact of raw material combinations on the biophysical parameters and
 Yi, L. (2002). Clothing comfort and product development. Beijing: China textile press.
 Sybilska, W., Napieralska, L. & Mielicka, E. (2010). Analysis of body measurements using a 3D contactless scanning method. AUTEX Research Journal, 10(3), 77-79.
 Shijia, Y. (2008). Study of pressure comfort and size optimization on female seamless underwear. Zhejiang Polytechnic University, December, 39-45. PhD.
 Minxia, L., Yueping, W. & Jinzi, W. (2009). Objective measurement and
This study evaluates the efficiency of non-flammable functional underwear used as a secondary heat barrier in extreme conditions. Five groups of knitted fabrics were analysed for flame resistance and selected physiological properties (water vapour permeability, air permeability, thermal resistance and liquid moisture transport by moisture management transport). The results indicated similar levels of flame resistance for the materials tested but show important differences in terms of physiological characteristics, namely liquid moisture transport, which influences the safety and comfort of protective clothing.
Onofrei Elena, Teodor-Cezar Codau, Petrusic Stojanka, Bedek Gauthier, Dupont Daniel and Soulat Damien
Research Journal, 78 (11), 1025-1035.
Mäkinen, H., Smolander, J., Vuorinen, H. (1988). Simulation of the effect of moisture content in underwear and on the skin surface on steam burns of firefighters. In: Mansdorf, S.Z., Sager, R., Nielsen, A.P., (eds). Performance of Protective Clothing: Issues and Priorities for the 21st Century, Second Symposium (ASTM STP 989). Philadelphia, PA, USA: American Society for Testing and Materials (ASTM), 415-421.
Chen, N.Y. (1959). Transient Heat and Moisture Transfer to Skin through Thermally Irradiated Cloth. Doctoral
Stephanie Trummer, Andrea Ehrmann and Alexander Büsgen
Cardiovascular diseases are the most frequent cause of death worldwide. Cases of cardiac arrest can often be attributed to undetected cardiac arrhythmia. Detecting rare episodes of arrhythmia necessitates long-term ECG measurements along days or weeks. However, due to the relatively small number of electrodes used for these ECGs, abnormal episodes can still go unrecognized. This article thus describes the development of underwear with ten inbuilt textile ECG electrodes, allowing for the measurement of long-term 12-lead ECG. As against the constructs of other research groups, the position of electrodes offers the same detection directions as the common 12-lead ECG equipment in hospitals or medical practices. Long-term tests have shown the suitability of the sensory underwear variants for men and women to detect reliable ECG signals without disturbing the patients’ comfort.
Sajid Hussainn, Viera Glombikova, Nasrullah Akhtar, Adnan Mazari, Tariq Mansoor and Kanwar Ali Haider Khan
This study investigates the effect of material composition on moisture management properties. Fiber type has significant influence on the moisture management properties of knitted fabrics. In this article, single jerseys knitted fabric samples with different yarn compositions were prepared. Liquid moisture transportation properties including wetting time, absorption rate, spreading speed, one-way transportation capability, and OMMC were evaluated by Moisture Management Tester (MMT) and vertical wicking was evaluated using thermography system and image analysis. Knitted sample having fine cotton yarns with coolmax and micro denier multifilament polypropylene showed best liquid transportation properties. There is a strong co-relation between OMMC and accumulative oneway transport index with vertical wicking of knitted samples.
Daoling Chen, Pengpeng Cheng, Sone Simatrang and Eakachat Joneurairatana
. International Journal of Human-Computer Studies, 71(3), 217-227.
 Guo, F., Liu, W. L., Cao, Y. Q., Liu, F. T., Li, M. L. (2016). Optimization design of a webpage based on Kansei engineering. Human Factors and Ergonomics in Manufacturing, 26(1), 110-126.
 Jiang, Y., Liu, G. L. (2006). Study on consumer’s perceptual demand for the image of T-shirt. Journal of Textile Research, 27(2), 98-100.
 Wang, L. Z., Liu, C., Liu, S. D. (2016). Design of underwear based on Kansei engineering. In: The Textile Bioengineering and Informatics Symposium
Atsushi Kawamura, Chunhong Zhu, Julie Peiffer, KyoungOk Kim, Yi Li and Masayuki Takatera
 Kawabata S, Niwa M. (1984) Improvement in the Objective Evaluation of Fabric Hand for Thin Dress Fabrics, Part 1, Selection of the Fabric Deformation Range in the Measurement of Mechanical Properties. Journal of the Textile Machinery Society of Japan, 37, 45-53.
 Sakaguchi H, Kawabata S, Niwa M. (1986) A Development in the Objective Measurement of the Quality of Knitted Fabrics Used for Underwear, Part1. Measurement of the Fabric-Characteristics. Journal of the Textile Machinery Society of Japan, 39, 33-42.
 Matsudaira M, Kawabata S
evaporative from underwear designed for fire-fighters. Autes Res J, 15 (1), 35-47.
 Yu Z.C., Zhang J.F., Lou C.W., He H.L., Chen A.B., Lin J.H. (2015). Moisture comfort and antibacterial properties of elastic warp-knitted fabrics, Autes Res J, 15 (1), 60-66.
 Yu Z.C., Zhang J.F., Lou C.W., He H.L., Chen A.B., Lin J.H. (2015). Wicking behavior and dynamic elastic recovery properties of multifunction elastic warp-knitted fabrics. Textile Res J, 85(14), 1486-1496.
 Yanılmaz M., Kalaoglu F. (2012). Investigation of wicking, wetting and drying
Sensor Made of High-Strength, Single-Walled Carbon Nanotube/Poly(vinyl alcohol) Filaments, ACS Appl. Mater. Interfaces,9(5), 4788–4797.
 Kubiak P., Leśnikowski J. Gniotek K. (2016). Textile Sweat Sensor for Underwear Convenience Measurement. Fibres & Textiles in Eastern Europe, 24(6),151-155.
 Kurczewska A., Leśnikowski J. (2008). Variable-thermoinsulation garments with a microprocessor temperature controller, International Journal of Occupational Safety and Ergonomics, 14 (1), 77-87.
 Zhang H., Zeng B.Q., Ao L., & Zhang Z. (2012). A novel