Collaborative improvement as an inspiration for supply chain collaboration

The battlefield of competition is today moving from the level of\ud individual firms to the one of the extended enterprises, that is, networks of customers and their suppliers. This paper discusses how learning and continuous improvement today take place in processes based on daily collaboration at intercompany level, i.e. Extended Manufacturing Enterprises (EMEs). The purpose of the paper is to present a preliminary theory on Collaborative Improvement (CoI), i.e. continuous improvement at the EME level. Based on a literature review on Supply Networks, and Continuous Improvement and on evidence from two explorative case studies, the paper proposes a model for Collaborative Improvement in EMEs and discusses a research approach based on Action Research and Action Learning to further develop preliminary theory and actionable knowledge on how to foster and sustain CoI in EMEs

A Layered Software Architecture for the Management of a Manufacturing Company

In this paper we describe a layered software architecture in the management of a manufactur-ing company that intensively uses computer technology. Application tools, new and legacy, after the updating, operate in a context of an open web oriented architecture. The software architecture enables the integration and interoperability among all tools that support business processes. Manufacturing Executive System and Text Mining tools are excellent interfaces, the former both for internal production and management processes and the latter for external processes coming from the market. In this way, it is possible to implement, a computer integrated factory, flexible and agile, that immediately responds to customer requirements.ICT, Service Oriented Architecture, Web Services, Computer-Integrated Factory, Application Software

Collaborative electronic purchasing within an SME consortium

The main function of purchasing is to assure the supply with required goods and services. Large organisations have both finances and knowledge to implement optimised purchasing resources, typically using information and communications technology (ICT) to improve efficiency. On the contrary, within individual small and medium sized enterprises electronic purchasing is conducted predominately through supplier's sales web sites.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

A framework for smart production-logistics systems based on CPS and industrial IoT

Industrial Internet of Things (IIoT) has received increasing attention from both academia and industry. However, several challenges including excessively long waiting time and a serious waste of energy still exist in the IIoT-based integration between production and logistics in job shops. To address these challenges, a framework depicting the mechanism and methodology of smart production-logistics systems is proposed to implement intelligent modeling of key manufacturing resources and investigate self-organizing configuration mechanisms. A data-driven model based on analytical target cascading is developed to implement the self-organizing configuration. A case study based on a Chinese engine manufacturer is presented to validate the feasibility and evaluate the performance of the proposed framework and the developed method. The results show that the manufacturing time and the energy consumption are reduced and the computing time is reasonable. This paper potentially enables manufacturers to deploy IIoT-based applications and improve the efficiency of production-logistics systems

BIM as a strategic tool for supply chain in main projects in the United Kingdom

The need to achieve more efficiency and quality, reduce costs, cut carbon dioxide emissions and faster delivery were demanding for a vast change in the construction industry in the United Kingdom. To helping achieve these aims, as well be and remains in the vanguard of smart construction and digital design, UK made the decision to embrace Building Information Modelling (BIM), underpinned with the Government’s mandate launched in 2011, for Level 2 BIM compliance as minimum for all their centrally-procured projects by 2016. That decision resulted in a Government push to upskill the construction industry with the intention of reducing the capital and revenue costs associated with the procurement and use of buildings and infrastructure. For the public sector, BIM is offering the Government the opportunity to industrialise and reform its built environment through a digitally enabled procurement. Indeed, this Level 2 BIM programme already helping significant savings of circa £2.2bn between 2013 and 2015, making it a significant tool to meet the Government’s target of 15-20% savings on public construction costs (Cabinet Office, 2015). To support the industry to comply with Level 2 maturity, BIM Task Group and British Standard Institute, have developed several standards, documents and guides to explain clearly how BIM should be applied. The Level 2 programme is a key enabling strategy for the UK developing processes for data deliveries, classification and open data definitions. Certainly, the UK BIM standards and processes are working as a world-wide acknowledged benchmark for industry digitisation. By 2020, economists estimated that the UK market for BIM-related services will be an annual £30bn; in a global context, UK-based firms already export £7bn of architectural and engineering services; develop BIM capabilities and have a leadership position regarded to BIM, will provide UK further export growing and enable the industry to deliver higher quality and a more sustainability built environment for the future generations. This dissertation aim to encourage everyone to learn more about building information modelling and to explore the success example of the UK strategy Government related to BIM level 2 mandate. For that purpose, this document first explains the fundamental concepts of BIM and then explores the context in the UK: BIM maturity levels, the existing codes and standards, addresses the named “8 pillars of Level 2 BIM” and explains the information delivery cycle process. It also becomes relevant discuss in this paper, the current situation of the BIM adoption by the AEC industry and address some of the benefits and limitations of BIM adoption in the country. Furthermore, we look beyond and investigate the BIM level 3. The research has been conducted by an extensive review on the literature related to the topic of interest, collecting and analysis of surveys that have been conducted related to BIM in the UK and experienced working in a UK based contractor. A case of study is showed to recognise the importance of use BIM for a large project such as the High Speed 2, and additionally it is suggested a process map for BIM execution planning.A necessidade em obter mais eficiência e qualidade, reduzir custos, diminuir as emissões de carbono e de prazos de execução, exigiam uma enorme mudança na indústria da construção no Reino Unido. De forma a alcançar estes objetivos, bem como a pertencer e permanecer na vanguarda da construção inteligente e projeto digital, o Reino Unido tomou a decisão de adotar o BIM (Building Information Modelling), impulsionado pelo mandato do Governo para cumprimento do Nível 2 de maturidade como mínimo, lançado em 2011 para todos os projetos lançados centralmente, a partir de 2016. Essa decisão resultou num impulso do Governo para melhorar a indústria da construção, com a intenção de reduzir os custos de capital e receita associados à aquisição e uso de edifícios e infra-estruturas. No setor público o BIM está a proporcionar ao Governo, a oportunidade de industrializar e reformar o seu sector da construção através do procurement digital. De fato, este programa de BIM Nível 2 já ajudou a atingir poupanças significativas de cerca de £2.2 bilhões entre 2013 e 2015, tornando-o numa ferramenta significativa para atingir a meta de redução de custos com a construção pública entre os 15-20% (Cabinet Office, 2015). De forma a apoiar a indústria a cumprir com o Nível 2 de maturidade de BIM, o BIM Task Group e o British Standard Institute, desenvolveram várias standards, documentos e guias para explicar claramente como o BIM deveria ser aplicado. O programa Nível 2 é uma estratégia chave potenciadora para o Reino Unido desenvolver processos para a entrega de dados, classificação e definições de dados abertos. De fato, as BIM standards e os processos do Reino Unido estão a ser reconhecidos mundialmente como uma referência para a digitalização da indústria. Por volta de 2020, os economistas estimam que o mercado para serviços relacionados com BIM sejam £30 bilhões; num contexto global, as firmas baseadas no Reino Unido já exportam £7 bilhões de serviços de arquitetura e engenharia; desenvolver as capacidades e ter uma posição de liderança em relação ao BIM, fará com que esta exportação cresça e permitirá que a indústria entregue com mais qualidade e sustentabilidade as construções às gerações futuras. Esta dissertação pretende encorajar todos os interessados a aprender mais sobre o BIM e explorar o caso de sucesso da estratégia tomada pelo Governo do Reino Unido no que diz respeito ao mandato do BIM Nível 2. Para isso, este documento explica primeiro os conceitos essenciais do BIM e depois explora o contexto no Reino Unido: os níveis de maturidade de BIM, os códigos e standards existentes, aborda os chamados “8 pilares do BIM Nível 2” e explica o ciclo de entrega de informação. Torna-se também relevante discutir neste trabalho, a situação atual da adoção do BIM por parte da indústria AEC e abordar os benefícios e limitações na adoção do BIM no país. Adicionalmente, olha-se para o futuro e explora-se o BIM Nível 3. A pesquisa foi levada a cabo através de extensa revisão da literatura relacionada com o tópico, de recolha e análise de inquéritos realizados no Reino Unido relacionados com BIM e a experiência trabalhando numa construtora baseada no Reino Unido. É apresentado um caso de estudo para demonstrar a importância do uso do BIM num grande projeto como High Speed 2, e adicionalmente é sugerido um mapa de processo para o planejamento de execução BIM

IT supported business process negotiation, reconciliation and execution for cross-organisational e-business collaboration

In modern enterprises, workflow technology is commonly used for business process automation. Established business processes represent successful business practice and become a crucial part of corporate assets. In the Internet era, electronic business is chosen by more and more organisations as a preferred way of conducting business practice. In response to the increasing demands for cross-organisational business automation, especially those raised by the B2B electronic commerce community, the concept of collaboration between automated business processes, i.e. workflow collaboration, is emerging. Otherwise, automation would be confined within individual organisations and cross-organisational collaboration would still have to be carried out manually. However, much of the previous research work overlooks the acquisition of the compatible workflows at build time and simply assumes that compatibility is achieved through face-toface negotiation followed by a design from scratch approach that creates collaborative workflows based on the agreement resulted from the negotiation. The resource-intensive and error-prone approach can hardly keep up with the pace of today’s marketplace with increasing transaction volume and complexity. This thesis identifies the requirements for cross-organisational workflow collaboration (COWCO) through an integrated approach, proposes a comprehensive supporting framework, explains the key enabling techniques of the framework, and implements and evaluates them in the form of a prototype system – COWCO-Guru. With the support of such a framework, cross-organisational workflow collaboration can be managed and conducted with reduced human effort, which will further facilitate cross-organisational e-business, especially B2B e-commerce practices