The Capital Improvement Plan Environmental Assessment Process

This report contains one explicit mention of Waller Creek and how a Convention Center 66" Water Transmission Line Relocation resulted in a recommendation for the restoration of Waller Creek banks.This report outlines the current requirements for Environmental Assessments (EAs) performed for compliance with the City of Austin Land Development Code (LDC) as they are applied in City Capital Improvement Plan (CIP) projects. Much of this information is not currently documented in either the Environmental Criteria Manual (ECM) or other material readily available to Public Works Project Managers. An overview of the Environmental Assessment process is provided along with the goals for CIP assessments, methods for review and completion of assessments, and recommendations for improving the City processes. Attachments to this report include pertinent LDC citations, the form in use for project identification, a suggested process for conducting and reviewing assessments a scope of work for staff or consultants performing assessments, and photographic summaries of critical environmental features to be protected in accordance with the LDC in City as well as private projects. Also, a flowchart of the EA review process and a brief summary of assessments of past projects are included in the attachments. The information is provided as a precursor to the expansion of the current ECM section on Environmental Assessments in Section 1.3.0 and for consideration by the Public Works Department and other Project Managers for early review of environmental impacts, leading to better CIP projects..Waller Creek Working Grou

Decision Management Process Improvement Project

A Project Submitted in Partial Fulfillment of the Requirements for the Degree of MASTER OF SCIENCE in Project ManagementIt has become all too common that questions are raised during the execution of a project pertaining to the decisions that were made early on. Without having maintained a concise, accessible record of project decisions, the project manager and team members would find it difficult to provide hard evidence as to how they got to this point and what impacts specific decisions had on the project’s trajectory. This paper introduces the Decision Management Process Improvement Project (DMPIP), which focuses on improving decision management process throughout the lifecycle of a project with the aim of adding value to project performance and helping obtain project success. This new tool was inspired due to a lack of appropriate methods involving complex projects at a local consulting firm. The process along with the tool is being added to the toolset of a local Consulting Firm. This Firm plans to introduce the tools and techniques to clients that will benefit from an increased Project Management maturity level with improvements to its decision-tracking processes and demonstration of downstream effects of important decisions. The final product is a contribution to the Project Management Body of Knowledge (PMBOK) in the form of creating a Project Decision Management knowledge area in the PMBOK format. A decision log that follows a decision throughout the whole process from problem identification and analysis to the eventual outcome is at the core of the created knowledge area.Title Page / Table of Contents / List of Exhibits / Abstract / Keywords / Introduction / Project Purpose / Project Benefits / Research Methodology / Research Results Analysis / Project Management Approach / Final Products / Conclusion and Recommendations / Opportunities for Future Development / Reference

Organizational Change Perspectives on Software Process Improvement

Many software organizations have engaged in Software Process Improvement (SPI) and experienced the challenges related to managing such complex organizational change efforts. As a result, there is an increasing body of research investigating change management in SPI. To provide an overview of what we know and don’t know about SPI as organizational change, this paper addresses the following question: What are the dominant perspectives on SPI as organizational change in the literature and how is this knowledge presented and published? All journals on the AIS ranking list were screened to identify relevant articles and Gareth Morgan’s organizational metaphors (1996) were used to analyze this literature considering the following dimensions of each article: organizational perspective (metaphor), knowledge orientation (normative versus descriptive), theoretical emphasis (high versus low), main audience (practitioner versus academic), geographical origin (Scandinavia, the Americas, Europe, or the Asia-Pacific), and publication level (high versus low ranked journal). The review demonstrates that the literature on SPI as organizational change is firmly grounded in both theory and practice, and Scandinavia and the Americas are the main contributors to this research. The distribution of articles across Morgan’s metaphors is uneven and reveals knowledge gaps that present new avenues for research. The current literature offers important insights into organizational change in SPI from machine, organism, and brain perspectives. Practitioners may use these articles as a guide to SPI insights relevant to their improvement initiatives. In contrast, the impact of culture, dominance, psychic prison, flux and transformation, and politics in SPI have only received scant attention. We argue that these perspectives offer important insights into the challenges involved in managing change in SPI. Researchers are therefore advised to engage in new SPI research based on one or more of these perspectives. Overall, the paper provides a roadmap to help identify insights and specific articles related to SPI as organizational change.Software Process Improvement; Organizational Change; Organizational Metaphors; Images of Organization; Literature Review

Collaborative Engineering Environments. Two Examples of Process Improvement

Companies are recognising that innovative processes are determining factors in competitiveness. Two examples from projects in aircraft development describe the introduction of collaborative engineering environments as a way to improve engineering processes. A multi-disciplinary simulation environment integrates models from all disciplines involved in a common functional structure. Quick configuration for specific design problems and powerful feedback / visualisation capabilities enable engineering teams to concentrate on the integrated behaviour of the design. An engineering process management system allows engineering teams to work concurrently in tasks, following a defined flow of activities, applying tools on a shared database. Automated management of workspaces including data consistency enables engineering teams to concentrate on the design activities. The huge amount of experience in companies must be transformed for effective application in engineering processes. Compatible concepts, notations and implementation platforms make tangible knowledge like models and algorithms accessible. Computer-based design management makes knowledge on engineering processes and methods explicit

The improvement of aluminium casting process control by application of the new CRIMSON process

All The traditional foundry usually not only uses batch melting where the aluminium alloys are melted and held in a furnace for long time, but also uses the gravity filling method in both Sand Casting Process (SCP) and Investment Casting Process (ICP). In the gravity filling operation, the turbulent behaviour of the liquid metal causes substantial entrainment of the surface oxide films which are subsequently trapped into the liquid and generate micro cracks and casting defects. In this paper a new CRIMSON process is introduced which features instead of gravity filling method, using the single shot up-casting method to realize the rapid melting and rapid filling mould operations which reduce the contact time between the melt and environment thus reducing the possibility of defect generation. Another advantage of the new process is the drastic reduction of energy consumption due to shortened melting and filling time. Two types of casting samples from SCP and ICP were compared with the new process. The commercial software was used to simulate the filling and solidification processes of the casting samples. The results show that the new process has a more improved behaviour during filling a mould and solidification than the two conventional casting processes

A multiprocess quality model: identification of of key processes in the integration approach

In this paper we investigate the use of multiprocess quality model in the adoption of process improvement frameworks. We analyze an improvement effort based on multiple process quality models adoption. At present, there is a possibility of a software development organization to adopt multi-quality and improvement models in order to remain competitive in the IT market place. Various quality models emerge to satisfy different improvement objective such as to improve capability of models, quality management and serve as IT government purpose. The heterogeneity characteristics of the models require further research on dealing with multiple process models at a time. We discuss on the concept of software process and overview on software maintenance and evolution which are important elements in the quality models. The concepts related to process quality model and improvement models are discussed. The research outlined in this paper shows that software processes, maintenance, evolution, quality and improvement have become really important in software engineering. The synergy among the multi-focused process quality model is examined with respect to process improvement. The research outcome is to determine key processes vital to the implementation of multi-process quality model

Process improvement in BAe Systems and the wider aerospace sector

Purpose: To research the change management processes used to implement ‘world class’ improvements in a major aerospace company, BAE SYSTEMS, and to propose a model for process improvement in the wider aerospace sector. Design/methodology/approach: The research was undertaken as a longitudinal study over a period of five years. A variety of research methodologies were used at various stages of the research including action research and observation. Semi-structured and unstructured interviews were used to gather qualitative data along with documentary evidence of the processes being used. Findings: There are three key findings. Firstly, an understanding of the production stages in the aerospace sector: future project; new product; sustain and return to work. Secondly details of a matrix-based approach and the issues regarding its implementation in a large organisation are discussed. Thirdly, a generic set of principles to aid process improvement in the aerospace sector is proposed. Research limitations/implications: Given that the study is based in one company, there are issues regarding the generalisation of the results. A potential further research project would entail the implementation of the proposed generic principles in another aerospace organisation. Practical implications: For BAE SYSTEMS, this research project aided their understanding of the issues involved in rolling out a process improvement program in a large organisation.Originality/value: Until recently, most of the research into process improvement had either been universalistic or aimed at another type of industry, such as the automotive industry. This research helps to address the specific needs of the aerospace industry