Industrial Design And The Mass Customization Of Electronic Consumer Goods

Kaygin Sel, Sultan

01 January 2013

Mass customization is promoted in manufacturing industry as a way to satisfy individual customer requirements in a flexible, efficient and cost effective way. However, mass customization within the specific sector of &lsquo / electronic consumer goods&rsquo / is relatively underdeveloped, whilst the contributions of industrial designers to mass customization remain quite unclear. This research redresses both of these issues, elaborating on the possibilities of mass-customization in the electronic consumer goods sector, and explaining how industrial designers can take a central role in implementation. Chapter 2 contains a literature review on key terms related to mass customization. A portfolio of mass customization case studies, from both within and outside electronic consumer goods, are presented and analyzed in Chapter 3, which also reports on a new classification system to define six discrete customization types. User needs research methods, including IDEO methods, are reviewed in Chapter 4 to determine those methods most applicable for use in the pilot (Chapter 5) and main (Chapter 7) &lsquo / research through design&rsquo / customization projects. The pilot project, conducted with METU industrial design undergraduates, explored opportunities and barriers for mass customization of electronic consumer goods / the main project, carried out by the Vestel ID Team under the SAN-TEZ scheme, resulted in a new mass customized all-in-one (AIO) PC for Vestel Electronics. In Chapter 6, results of interviews with Vestel staff are presented, uncovering the current situation within Vestel Electronics for implementing mass customization. Chapter 8 contains the research conclusions, including discussion of a proposed design-based mass customization design and development procedure.

TS Manufactures. 146464

Industrial Design And The Mass Customization Of Electronic Consumer Goods

Kaygin Sel, Sultan

01 January 2013

Mass customization is promoted in manufacturing industry as a way to satisfy individual customer requirements in a flexible, efficient and cost effective way. However, mass customization within the specific sector of &lsquo / electronic consumer goods&rsquo / is relatively underdeveloped, whilst the contributions of industrial designers to mass customization remain quite unclear. This research redresses both of these issues, elaborating on the possibilities of mass-customization in the electronic consumer goods sector, and explaining how industrial designers can take a central role in implementation. Chapter 2 contains a literature review on key terms related to mass customization. A portfolio of mass customization case studies, from both within and outside electronic consumer goods, are presented and analyzed in Chapter 3, which also reports on a new classification system to define six discrete customization types. User needs research methods, including IDEO methods, are reviewed in Chapter 4 to determine those methods most applicable for use in the pilot (Chapter 5) and main (Chapter 7) &lsquo / research through design&rsquo / customization projects. The pilot project, conducted with METU industrial design undergraduates, explored opportunities and barriers for mass customization of electronic consumer goods / the main project, carried out by the Vestel ID Team under the SAN-TEZ scheme, resulted in a new mass customized all-in-one (AIO) PC for Vestel Electronics. In Chapter 6, results of interviews with Vestel staff are presented, uncovering the current situation within Vestel Electronics for implementing mass customization. Chapter 8 contains the research conclusions, including discussion of a proposed design-based mass customization design and development procedure.

TS Manufactures. 146464

Postponement, Mass Customization, Modularization and Customer Order Decoupling Point: Building the Model of Relationships

Can, Kemal Caglar

January 2008

This paper focuses on four interrelated strategies: postponement, mass customization, modularization and customer order decoupling point. The goal of the postponement is to delay the customization as late as possible in the supply chain. It is also known as delayed differentiation. Mass customization is a relatively new term, which began to gain attention in the industry a decade ago. It was an obligatory invention as a response to the global market which becomes more turbulent day by day for the last two decades. Its goal is to produce customized products at low costs. Modularization is a common term that is used in many areas. In this study, we will focus on product architecture modularity and process modularity. Customer order decoupling point, which is also known as order penetration point, is used to distinguish the point in the supply chain where a particular product is associated to a specific order. Our target is building a model that explains how these four concepts are related. In order to achieve this, we will, first, research every concept individually; we will state the definitions, levels, benefits, enablers, success factors, drivers, etc. of the concepts. Then we will study the pair-wise relationships of these strategies. We will build our model according to the findings we have found in the literature. After building our model, we will explore it in Autoliv Electronics to see how it works in practice. Briefly, our model states the following: Modularization is an enabler of customization and it is necessary for the success of mass customization where set-up costs are critical. Product architecture modularity provides rapid assembly and cost efficiency that is required for postponement and mass customization. In addition, it is used to measure the mass customization degree according to some others. Postponement requires process modularity, and it moves the customer order decoupling point downstream in the value added material flow. It contributes the mass customization by increasing both the leanness and agility. Customer order decoupling point uses the customer requirements and existing capabilities of the mass customization for optimizing the flexibility-productivity balance.

Postponement

Mass Customization

Modularization

Customer Order Decoupling Point

Manufacturing engineering

Produktionsteknik

A Study on Quality management and Customization of Automotive Parts and Accessories

Liu, Kuo-Liang

01 September 2011

The quality of car accessories is more and more important in recent year and consumer awareness of product quality also has been significant. This study bases on the factor s of quality management and mass customization capability to car accessories industry and weather is there any different between them to do our study. This article not only explores industrial dynamics and related literature but also with questionnaire and statistical methods to analyses collected data. The results showed small group problem and Customer focus.

Mass customization

Car accessories industry

supplier capability

Consumer awareness

Quality management

Mass Customizing The Relations Of Design Constraints For Designer-built Computational Models

Ercan, Selen

01 September 2010

The starting motivation of this study is to develop an intuitively strong approach to addressing architectural design problems through computational models. Within the scope of the thesis, the complexity of an architectural design problem is modeled computationally by translating the design reasoning into parameters, constraints and the relations between these. Such a model can easily become deterministic and defy its purpose, if it is customized with pre-defined and unchangeable relations between the constraints. This study acknowledges that the relations between design constraints are bound to change in architectural design problems, as exemplified in the graduation project of the author. As such, any computational design model should enable designers to modify the relations between constraints. The model should be open for modifications by the designer. v The findings of the research and the architectural design experiments in the showcase project suggest that this is possible if mass customized sequences of abstract, modifiable and reusable relations link the design constraints with each other in the model. Within the scope of this thesis, the designer actions are mass-customized sequences of relations that may be modified to fit the small design tasks of relating specific design constraints. They relate the constraints in sequence, and are mass customized in an abstract, modifiable and reusable manner. Within this study, they are encoded in Rhino Grasshopper definitions. As these mass customized relations are modifiable, they are seen as a remedy for enabling the designers to build models that meet individual and intuitive needs of the design problems that designers define.

Designing for diverse users - a case study on touchscreen smartphone customization

Haberman, Vicki

03 April 2012

The touchscreen smartphone platform is inherently flexible, giving it the potential to meet the needs and desires of individuals diverse in age and ability. Despite universal design research efforts providing industry with guidance to address this opportunity, current designs fall short. The disconnect stems from differing priorities in design and development and opposing approaches to defining and grouping the user population. The research presented in this dissertation aims to remove these issues from the process of discovering touchscreen smartphone design opportunities. It focuses on users' prior and desired customizations rather than ability- or market-factors. Data were collected on participants' devices' out-of-the-box, current and desired device states along with related stories about their actual and desired device modifications. Template and image analyses identified patterns in the data, which also revealed an underlying structure for organizing and presenting participants' needs and desires associated with smartphone touchscreen customizations. The needs and desires suggest opportunities for industry to shift towards universal design. The structure offers an approach to addressing the gaps between the ability-centered and market-driven approaches to the design of consumer technology.

Mobile phone

Smart phone

Disability

Generative research

Mobile phone

Smartphones

Touch screens

Mass customization

Postponement in Fashion Retailing : A Case Study of H&M

Nawaz, Mohsin, Saleem, Munawar

January 2010

<p><strong>Abstract</strong></p><p>In fashion industry, customer demand is constantly changing. One of the main reasons is due to the time of delicate fashion awareness among the consumers, which has come into larger variety and frequent assortment changes. The changing trends in fashion industry allow researchers to get into the postponement strategy as a customized operation in order to focus on quality and flexibility. In today’s fashion market the key for success is to keep an eye on and react to the customer demand. H&M is Europe’s second largest fashion retailer in terms of sales and our work will reflect on H&M supply chain particularly. We try to figure out business strategies such as mass customization and standardization, which H&M is using in their entire supplier chain and in his different processes. Keeping this view in mind, we design our research question, which is about mass customization and standardization and we try to relate these business strategies to the postponement. We try to find out the structure and implementation of these strategies in H&M supply chain with the help of our respondent answers in our proposed questionnaire.</p><p>For this purpose, an electronic interview with the H&M senior merchandiser in Pakistan liaison office was carried out. The questionnaire contains different questions related to postponement strategy, customization, and standardization and other processes which are used in the supply chain of any fashion industry. The questionnaire consists of 22 major questions. Our research is purely qualitative. We include both types of the data; namely secondary and primary. Secondary data was collected from earlier studies of the literature and related theories of postponement, customization, and standardization and certain areas of fashion retailing, whereas primary data was collected through the electronic interview with Mr. Syed Naqeeb who is working in H&M liaison office as a senior merchandiser in Pakistan.</p><p>After receiving the questionnaire, we have tried to highlight our research questions with the help of our proposed Frame of Reference in Chapter 2. The Frame of Reference consists of theories which will help the reader to get the clear picture of fashion retailing and the related theories.</p><p>In the Analysis section, we talk about the activities of H&M and its background followed by its business concept. We define H&M SCM model and draw a figure of H&M complementarities, which we developed by the help of electronic interview. In the Conclusion part, we come to the point that customization and postponement affect fashion retailing by choosing raw material, components, and apparel accessories plus logistic management. The other aspect of our research area is standardization. After the analysis we come to know that Standardization and postponement are also used together in the supply chain of H&M, in raw material, cotton and yarn, dying, packaging and in the care instruction of labels (washing instructions).</p>

Postponement

Speculation

Retailing

Fashion Retailing

Customer Order Decoupling Point

Mass Customization and Standardization.

Business studies

Företagsekonomi

Postponement, Mass Customization, Modularization and Customer Order Decoupling Point: Building the Model of Relationships

Can, Kemal Caglar

January 2008

<p>This paper focuses on four interrelated strategies: postponement, mass customization, modularization and customer order decoupling point. The goal of the postponement is to delay the customization as late as possible in the supply chain. It is also known as delayed differentiation. Mass customization is a relatively new term, which began to gain attention in the industry a decade ago. It was an obligatory invention as a response to the global market which becomes more turbulent day by day for the last two decades. Its goal is to produce customized products at low costs. Modularization is a common term that is used in many areas. In this study, we will focus on product architecture modularity and process modularity. Customer order decoupling point, which is also known as order penetration point, is used to distinguish the point in the supply chain where a particular product is associated to a specific order.</p><p>Our target is building a model that explains how these four concepts are related. In order to achieve this, we will, first, research every concept individually; we will state the definitions, levels, benefits, enablers, success factors, drivers, etc. of the concepts. Then we will study the pair-wise relationships of these strategies. We will build our model according to the findings we have found in the literature. After building our model, we will explore it in Autoliv Electronics to see how it works in practice.</p><p>Briefly, our model states the following:</p><p>Modularization is an enabler of customization and it is necessary for the success of mass customization where set-up costs are critical. Product architecture modularity provides rapid assembly and cost efficiency that is required for postponement and mass customization. In addition, it is used to measure the mass customization degree according to some others.</p><p>Postponement requires process modularity, and it moves the customer order decoupling point downstream in the value added material flow. It contributes the mass customization by increasing both the leanness and agility.</p><p>Customer order decoupling point uses the customer requirements and existing capabilities of the mass customization for optimizing the flexibility-productivity balance.</p>

Postponement

Mass Customization

Modularization

Customer Order Decoupling Point

Manufacturing engineering

Produktionsteknik

Customer value analysis of mass customization

Martinsson, Kristina, Olsson, Gustav

January 2015

Research show that customer patterns in the textile industry are changing and the degree of personalization of products is getting more important to meet personal needs and preferences. Mass customization is a strategy named to create higher customer value by customizing products through a close interaction during the design and production process, high production flexibility and efficient logistics. The lack of research on the implementation of mass customization strategies and an identified gap between customer expectations and perception (customer value) of these types of products, are the incentives to conduct this research. The thesis has the purpose of identifying the drivers of customer value of mass customized garments and assess the value chain of the company Brohall &amp; Son from a perspective of mass customization as a strategy, and from the results draw conclusions of customer value aligned with the implementation mass customization strategies. In order to perform the research a quantitative approach, doing a customer value analysis through a self-completion questionnaire, was conducted. Attributes of price, quality, fit, service and delivery capacity were investigated to get an understanding of what drives value for the customers. In addition a qualitative method was used, doing interviews with the CEO of Brohall &amp; Son to gain a deeper understanding of their operations and value chain. The results show that quality, fit, delivery capacity and service are the most important attributes of customer value. Price is the least important attribute and also the least correlated/dependent variable to the rest of the attributes, showing a high willingness to pay for the garments. The analysis of the value chain indicates some areas of improvements regarding logistics, design process and production process. Solutions are brought up to get the value chain to get more aligned with the strategies of mass customization.

Mass customization

textile value chain

textile management

customer value analysis

customer value management

Platform variable identification using sensitivity analysis for product platform design

Hume, Chad Albert

13 January 2014

The recent trend of mass customization has redefined the way companies do business. Each individual customer is now their own market, requiring products specific to their wants and needs at mass production prices. This need for ever-increasing variety is a significant challenge for industry that many times leads to ballooning manufacturing costs and lower product performance. One approach that has received widespread attention and implementation is to develop families of products from standardized product platforms. While, many methods have been developed to address different challenges within product platform design, they are not without their limitations/tradeoffs and therefore leave much room for development and improvement. The Product Platform Constructal Theory Method (PPCTM), developed by Dr. Gabriel Hernandez, is a novel approach for developing product platforms that enable customizable products. Rooted in the tenants of hierarchic systems theory and constructal theory, the PPCTM solves for the product platform as a problem of optimization of access in a geometric space. The result is a hierarchical organization of the modes for managing variety and the specification of their commonality across the product platform. Overall, the PPCTM offers an extremely comprehensive product platform design method, with the ability to accommodate multi-platform design, multiple design specifications, non-uniform demand modeling, and multi-objective decision-making. One limitation of this method is that the selection of platform variables and the modes for managing product variety must be pre-specified or determined ad hoc by the designer. This thesis seeks to address this limitation through the integration of a sensitivity-based analysis method to determine the effect of platform variable variation on the family performance. The result of this work is a Sensitivity-based PPCTM that facilitates the selection of common platform variables, such that modes for managing variety can be ranked and applied to the space element hierarchy. The proposed method is illustrated with three examples: the design of a line of customizable pressure vessels, universal electric motors, and finger pumps.

Product family

Product platform

Sensitivity analysis

Design

Mass customization

Product design