Your search keyword '"Mok, P.Y."' showing total 9 results

1. Computational Technologies for Fashion Recommendation: A Survey.

Author

Ding, Yujuan, Lai, Zhihui, Mok, P.Y., and Chua, Tat-Seng

Published

2024

2. From design methodology to evolutionary design: An interactive creation of marble-like textile patterns.

Author

Lu, Shufang, Mok, P.Y., and Jin, Xiaogang

Subjects

*EVOLUTIONARY algorithms, *TEXTILE patterns, *EVOLUTIONARY computation, *MATHEMATICAL functions, *MATHEMATICAL complexes, *REAL-time computing, *TEXTILE industry

Abstract

Abstract: In this paper, by the integration of design methodology theories with evolutionary computation, a new design system is developed to evolve preferred designs on complex marbling patterns using interactive ‘perceptual selection’. The system is formulated in a way to assist the productive–deductive–inductive design reasoning process of the users. Therefore, complex mathematical functions do not cognitively overload the designers, who are released for more critical tasks of aesthetic assessment and new design rules induction. With the implementation on a graphics-processing unit (GPU), real-time complex marbling patterns can be created by the system. The system encourages creativity in the design process and accelerates new design generation. In addition, the resulting patterns fulfil the textile industry requirements of repeat and can be output as vector images. [Copyright &y& Elsevier]

Published

2014

3. Body measurements of Chinese males in dynamic postures and application

Author

Wang, Y.J., Mok, P.Y., Li, Y., and Kwok, Y.L.

Subjects

*BODY size, *POSTURE, *CHINESE people, *MALES, *BODY movement, *CLOTHING & dress, *ANALYSIS of variance, *PATTERNMAKING, *FASHION design

Abstract

Abstract: It is generally accepted that there is a relationship between body dimensions, body movement and clothing wearing ease design, and yet previous research in this area has been neither sufficient nor systematic. This paper proposes a method to measure the human body in the static state and in 17 dynamic postures, so as to understand dimensional changes of different body parts during dynamic movements. Experimental work is carried out to collect 30 measurements of 10 male Chinese subjects in both static and dynamic states. Factor analysis is used to analyse body measurement data in a static state, and such key measurements describe the characteristics of different body figures. Moreover, one-way ANOVA is used to analyse how dynamic postures affect these key body measurements. Finally, an application of the research results is suggested: A dynamic block patternmaking method for high-performance clothing design. [Copyright &y& Elsevier]

Published

2011

4. A decision support system for the production control of a semiconductor packaging assembly line

Author

Mok, P.Y.

Subjects

*PRODUCTION control, *ASSEMBLY line methods, *FUZZY logic, *FUZZY decision making, *DECISION making, *SEMICONDUCTOR manufacturing

Abstract

In this paper, production control of an actual industrial semiconductor packaging assembly line is studied. An evolutionary optimization methodology is developed to synthesize decision support systems for providing both crisp-logic and fuzzy-logic production control for the assembly line. The performance of such decision support systems is compared with that of the system originally implemented by the manufacturer. It is thus demonstrated that the proposed evolutionary methodology is effective in synthesizing decision support systems for both crisp-logic and fuzzy-logic control of the semiconductor packaging assembly production. It indicates that the proposed methodology can also synthesize decision support systems for productivity improvement in other complex manufacturing environment. [Copyright &y& Elsevier]

Published

2009

5. Solving the two-dimensional irregular objects allocation problems by using a two-stage packing approach

Author

Wong, W.K., Wang, X.X., Mok, P.Y., Leung, S.Y.S., and Kwong, C.K.

Subjects

*COMBINATORIAL packing & covering, *GENETIC algorithms, *GRID computing, *COMBINATORIAL optimization, *GENETIC programming, *EXPERT systems

Abstract

Abstract: Packing problems are combinatorial optimization problems that concern the allocation of multiple objects in a large containment region without overlap and exist almost everywhere in real world. Irregular objects packing problems are more complex than regular ones. In this study, a methodology that hybridizes a two-stage packing approach based on grid approximation with an integer representation based genetic algorithm (GA) is proposed to obtain an efficient allocation of irregular objects in a stock sheet of infinite length and fixed width without overlap. The effectiveness of the proposed methodology is validated by the experiments in the apparel industry, and the results demonstrate that the proposed method outperforms the commonly used bottom-left (BL) placement strategy in combination with random search (RS). [Copyright &y& Elsevier]

Published

2009

6. Quantification of environmental impact and ecological sustainability for textile fibres

Author

Muthu, Subramanian Senthilkannan, Li, Y., Hu, J.Y., and Mok, P.Y.

Subjects

*TEXTILE fibers, *ENVIRONMENTAL impact analysis, *PHOTOSYNTHESIS, *SUSTAINABILITY, *COTTON, *ACRYLIC textiles, *GLOBAL warming, *RENEWABLE natural resources

Abstract

Abstract: This paper reports the development of a unique model to quantify the environmental impact made by various textile fibres and also to position them in terms of ecological sustainability. A wide range of textile fibres and the major contributing factors in terms of environmental impact during manufacturing phase (starting from growth/extraction stage to production of a useful fibre which can be spun) have been selected. Amount of oxygen produced/carbon-di-oxide absorbed consequently contributing to off-set global warming during the production phase of a fibre, utilisation of renewable resources, land use, usage of fertilisers and pesticides, fibre recyclability and biodegradability of chosen fibres have been considered. Amount of energy consumed, quantity of water utilised and amount of green house gases emitted have been considered for life cycle inventory (LCI) and a life cycle impact assessment (LCIA) study has been accomplished to derive certain impact categories pertaining to the damage created to human health, ecosystem quality and resources, which will elucidate the characteristics of ecological sustainability. A scoring system based on the above mentioned factors which predominantly determine ecological sustainability has been framed, from which an Environmental Impact index (EI) has been developed. Further, an Ecological Sustainability Index (ESI) has been derived from EI values for the chosen fibres. According to this system, organic cotton is the most and acrylic is the least preferred fibre. A sensitivity study has been done to check the robustness of the developed model and the results of the same have been reported. [Copyright &y& Elsevier]

Published

2012

7. Carbon footprint of shopping (grocery) bags in China, Hong Kong and India

Author

Muthu, Subramanian Senthilkannan, Li, Y., Hu, J.Y., and Mok, P.Y.

Subjects

*ECOLOGICAL impact, *GROCERY shopping, *PRODUCT life cycle, *CLIMATE change, *GREENHOUSE gases, *SHOPPING bags

Abstract

Abstract: Carbon footprint has become a term often used by the media in recent days. The human carbon footprint is professed to be a very serious global threat and every nation is looking at the possible options to reduce it since its consequences are alarming. A carbon footprint is a measure of the impact of human activities on earth and in particular on the environment; more specifically it relates to climate change and to the total amount of greenhouse gases produced, measured in units of carbon dioxide emitted. Effort of individuals in minimizing the carbon footprint is vital to save our planet. This article reports a study of the carbon footprint of various types of shopping bags (plastic, paper, non-woven and woven) using life cycle impact assessment (LCIA) technique in two stages. The first stage (baseline study), comprised the study of the impact of different types of shopping bags in the manufacturing phase, without considering their usage and disposal phases (cradle to gate stage). The LCIA was accomplished by the IPCC 2007 method, developed by the Inter Panel on Climate Change in SIMAPRO 7.2. The GWP (Global Warming Potential) values calculated by the IPCC 2007 method for 100 years were considered as a directive to compare the carbon footprint made by the different types of shopping bags under consideration. The next stage was the study of the carbon footprint of these bags including their usage and disposal phases (cradle to grave stage) and the results derived were compared with the results derived from the baseline study, which is the major focus of this research work. The values for usage and end-of-life phases were obtained from the survey questionnaire performed amongst different user groups of shopping bags in China, Hong Kong and India. The results show that the impact of different types of shopping bags in terms of their carbon footprint potential is very high if no usage and disposal options were provided. When the carbon footprint values from different disposal options were compared, the carbon footprint values were lower in the case where a higher percentage of reuse is preferred to recycling and disposing to landfill. The results indicate that a higher percentage of reuse could significantly scale down the carbon footprint. Once the shopping bags reached the point where they can no longer be reused, they must be forwarded to recycling options, rather than being disposed to landfill. At this juncture, consumer’s perceptions and behaviours in connection with the respective government’s policies in promoting & facilitating recycling systems could be critical in reducing the carbon footprint of various shopping bags. [Copyright &y& Elsevier]

Published

2011

8. A fashion mix-and-match expert system for fashion retailers using fuzzy screening approach

Author

Wong, W.K., Zeng, X.H., Au, W.M.R., Mok, P.Y., and Leung, S.Y.S.

Subjects

*RETAIL industry, *FASHION merchandising, *RECOMMENDER systems, *CONSUMER preferences, *FILTERING software, *EXPERT systems

Abstract

Abstract: In today’s fashion retailing business, providing “fashion mix-and-match” or “fashion coordination” recommendations is a ‘must’ strategy to enhance customer service and improve sales. In this study, a fashion mix-and-match expert system is developed to provide customers with professional and systematic mix-and-match recommendations automatically. The system can capture the knowledge and emulate the decisions of fashion designers on apparel coordination and its knowledge base can store the literal form of information. A set of attributes of the apparel for coordination are identified and formulated; their corresponding importance is also defined with designers’ opinions using ordered weighted averaging operators. The Fashion Coordination Satisfaction Index is devised and computed using the fuzzy screening approach to represent the satisfaction degree of the coordinating pairs of apparel product items. The experimental results demonstrate that the proposed system can generate effective mix-and-match recommendations and is now integrated with a smart dressing system used effectively in a fashion chain store company in Hong Kong. [Copyright &y& Elsevier]

Published

2009

9. Optimization of manual fabric-cutting process in apparel manufacture using genetic algorithms.

Author

Wong, W.K., Chan, C.K., Kwong, C.K., Mok, P.Y., and Ip, W.H.

Subjects

*PRODUCTION planning, *MANUFACTURING resource planning, *PRODUCTION scheduling, *GENETIC algorithms, *MANUFACTURING processes, *PRODUCTION engineering

Abstract

In apparel manufacturing, experience and subjective assessment of production planners are used quite often to plan the production schedules in their fabric-cutting departments. The quantities of cut-pieces produced by fabric-cutting departments based on these non-systematic schedules cannot fulfil the cut-piece requirements of the downstream sewing lines and minimize the makespan. This paper proposes a genetic algorithms (GAs) approach to optimize both the cut-piece requirements and the makespan of the conventional fabric-cutting departments using manual spreading and cutting methods. An optimization model for the manual fabric cutting process based on GAs was developed. Two sets of production data were collected to validate the performance of the model and the experimental results were obtained. From the results, it can be found that both the makespan and cut-piece fulfilment rates are improved in which the latter is improved significantly. [ABSTRACT FROM AUTHOR]

Published

2006