Analysis and control of complex collaborative design systems

This paper presents a novel method for modelling the complexity of collaborative design systems based on its analysis and proposes a solution to reducing complexity and improving performance of such systems. The interaction and interfacing properties among many components of a complex design system are analysed from different viewpoints and then a complexity model for collaborative design is established accordingly. In order to simplify complexity and improve performance of collaborative design, a general solution of decomposing a whole system into sub-systems and using unified interface mechanism between them has been proposed. This proposed solution has been tested with a case study. It has been shown that the proposed solution is meaningful and practical

Communications software performance prediction

Software development can be costly and it is important that confidence in a software system be established as early as possible in the design process. Where the software supports communication services, it is essential that the resultant system will operate within certain performance constraints (e.g. response time). This paper gives an overview of work in progress on a collaborative project sponsored by BT which aims to offer performance predictions at an early stage in the software design process. The Permabase architecture enables object-oriented software designs to be combined with descriptions of the network configuration and workload as a basis for the input to a simulation model which can predict aspects of the performance of the system. The prototype implementation of the architecture uses a combination of linked design and simulation tools

Structured approach to measure performance in construction research and development: performance measurement system development

Purpose of this paper: This study explore Performance Measurement applications within construction research and development (R\&D) to develop a structured approach to measure the performance of collaborative construction R\&D projects during its lifecycle from initiation, conceptualising, development and launch stages and at the project management. Design/methodology/approach: During the exploratory phase of the study, semi-structured interviews and a questionnaire survey were carried out to develop the performance measurement system (PMS). During the explanatory phase, the developed PMS was refined with a series of semi-structured interviews. The data was gathered from principal investigators, researchers and industrial partners involved in collaborative construction R\&D work. Findings: Main finding is the developed PMS to measure the performance of construction R\&D that consists of critical success factors, performance indicators and performance measures during the lifecycle of a R\&D project. Practical implications: The PMS developed through the study provides critical success factors, performance indicators and measures that need to be considered during the construction R\&D projects to measure the performance. Thus, through the implementation of the PMS, this study contributes to practice by assisting the performance improvement within construction R\&D projects. What is original / value of paper?: The developed PMS to measure the performance of construction R\&D project will provide value for those who are engaged in R\&D work (Principle investigators, researcher and industrial partners) to ensure the success of their projects

Designing Prototype Model of an Online Collaborative Learning System for Introductory Computer Programming Course

AbstractThis paper discusses the design of the prototype model of the online collaborative learning system for introductory computer programming course. The methodology used involves three phases which are the data collection, analysis and design and the implementation phase. Initially, fifty respondents from the first year students of the Diploma in Computer Science in Universiti Teknologi MARA (UiTM) Perlis, Malaysia have been randomly selected to participate in the data collection phase in order to investigate the students’ interests, learning styles as well as their learning preferences. The results have shown the need for the development of online small group discussions that could facilitate online communication and collaboration from dispersed location, hence encouraging distance learning education. A design of a structure model for an online collaborative learning system has been constructed in order to support the online collaborative learning activities in a virtual environment. The logical designs of the Online Collaborative Learning System or OCLS are being designed using the object-oriented models which are the use-case model and class diagram in order to show the concise processes of virtual “Think-Pair-Share” collaborative activities. The “Think-Pair-Share” collaborative learning technique that is being used in the design structures has been chosen because of its simplicity and relatively low-risk. Later, the physical design of the prototype model is being constructed using the Web-based technologies which are the MySQL database, PHP and Apache web server. This paper also discusses the impact of the online collaborative learning system towards the students’ performance where analysis has shown that the t-test result had a significant value of 0.01, which is less than 0.05 (sig. 2-tailed)

Collaborative music interaction on tabletops: an HCI approach

With the advent of tabletop interaction, collaborative activities are better supported than they are on single-user PCs because there exists a physical shareable space, and interaction with digital data is more embodied and social. In sound and music computing, collaborative music making has traditionally been done using interconnected networks, but using separated computers. Musical tabletops introduce opportunities of playing in collaboration through sharing physically the same musical interface. However, few tabletop musical interfaces exploit this collaborative potential (e.g. the Reactable). We are interested in looking into how collaboration can be fully supported by means of musical tabletops for music performance in contrast with more traditional settings. We are also looking at whether collective musical engagement can be enhanced by providing more suitable interfaces to collaboration. In HCI and software development, we find an iterative process approach of design and evaluation—where evaluation allows us to identify key issues that can be addressed in the next design iteration of the system. Using a similar iterative approach, we plan to design and evaluate some tabletop musical interfaces. The aim is to understand what design choices can enhance and enrich collaboration and collective musical engagement on these systems. In this paper, we explain the evaluation methodologies we have undertaken in three preliminary pilot studies, and the lessons we have learned. Initial findings indicate that evaluating tabletop musical interfaces is a complex endeavour which requires an approach as close as possible to a real context, with an interdisciplinary approach provided by interaction analysis techniques

Distributed product development approaches and system for achieving optimal design.

The research in this dissertation attempts to provide theoretic approaches and design systems to support engineers who are located in different places and belong to different teams or companies to work collaboratively to perform product development.The second challenge is addressed by developing a collaborative design process modeling technique based on Petri-net. Petri-net is used to describe complex design processes and to construct different design process alternatives. These alternative Petri-net models are then analyzed to evaluate design process alternatives and to select the appropriate process.In this dissertation, three major challenges are identified in realization of a collaborative design paradigm: (i) development of design method that supports multidisciplinary xi design teams to collaboratively solve coupled design problems, (ii) development of process modeling techniques to support representation and improve complex collaborative design process, and (iii) implementation of a testbed system that demonstrates the feasibility of enhancing current design system to satisfy with the needs of organizing collaborative design process for collaborative decision making and associated design activities.New paradigms, along with accompanying approaches and software systems are necessary to support collaborative design work, in a distributed design environment, of multidisciplinary engineering teams who have different knowledge, experience, and skills. Current research generally focuses on the development of online collaborative tools, and software frameworks that integrate and coordinate these tools. However, a gap exists between the needs of a distributed collaborative design paradigm and current collaborative design tools. On one side, design methodologies facilitating engineering teams' decision making is not well developed. In a distributed collaborative design paradigm, each team holds its own perspective towards the product realization problem, and each team seeks design decisions that can maximize the design performance in its own discipline. Design methodologies that coordinate the separate design decisions are essential to achieve successful collaboration. On the other side, design of products is becoming more complex. Organizing a complex design process is a major obstacle in the application of a distributed collaborative design paradigm in practice. Therefore, the principal research goal in this dissertation is to develop a collaborative multidisciplinary decision making methodology and design process modeling technique that bridges the gap between a collaborative design paradigm and current collaborative design systems.To overcome the first challenge, decision templates are constructed to exchange design information among interacting disciplines. Three game protocols from game theory are utilized to categorize the collaboration in decision makings. Design formulations are used to capture the design freedom among coupled design activities.The third challenge, implementation of collaborative design testbed, is addressed by integration of existing Petri-net modeling tools into the design system. The testbed incorporates optimization software, collaborative design tools, and management software for product and process design to support group design activities.Two product realization examples are presented to demonstrate the applicability of the research and collaborative testbed. A simplified manipulator design example is used for explanation of collaborative decision making and design process organization. And a reverse engineering design example is introduced to verify the application of collaborative design paradigm with design support systems in practice

Resilience Analysis of Service Oriented Collaboration Process Management systems

Collaborative business process management allows for the automated coordination of processes involving human and computer actors. In modern economies it is increasingly needed for this coordination to be not only within organizations but also to cross organizational boundaries. The dependence on the performance of other organizations should however be limited, and the control over the own processes is required from a competitiveness perspective. The main objective of this work is to propose an evaluation model for measuring a resilience of a Service Oriented Architecture (SOA) collaborative process management system. In this paper, we have proposed resilience analysis perspectives of SOA collaborative process systems, i.e. overall system perspective, individual process model perspective, individual process instance perspective, service perspective, and resource perspective. A collaborative incident and maintenance notification process system is reviewed for illustrating our resilience analysis. This research contributes to extend SOA collaborative business process management systems with resilience support, not only looking at quantification and identification of resilience factors, but also considering ways of improving the resilience of SOA collaborative process systems through measures at design and run-time

Collaboration in Design:: A study of James B Hunt Jr. Library.

Collaborative design is a complex process that differs from the conventional system of sequential design by means of personal interaction, communication, and timing of design decisions. The complexity of the collaborative system, however, gives way to reduced cost and risk, increased project delivery speed, and improved building performance. As building projects become more complicated through technological advancements, and the architecture, engineering, and construction (AEC) practice embraces more integrated processes, it is important to understand the dynamics of collaborative design. Through the study of previous projects, intimate knowledge can be gained regarding partner interaction, oversights, team dynamics, processes, and benefits that are not always a part of a standardized list of collaborative benefits. This study will provide this insight by framing the design and construction of the James B. Hunt Jr. Library using a narrative case study format, beginning with designer selection and focusing on the collaborative aspects of the process. This transformative library is an example of innovation and success through collaboration. At many stages, the study of this project allows observes to gain insight into the the personal interaction between Snehetta and NCSU that enabled the project to be successful. This insight is provided through the review of construction and design documents, interviews of stakeholders and design professionals, and literature. The summary of the process will provide reviewers an example into how a collaborative process may differ from traditional methods, potential conflicts and understanding required for solution, and how collaborative design can benefit innovation and project success