A proper framework for design of aircraft production system based on lean manufacturing principles focusing to automated processes

Womack JP, Jones DT (1992) A máquina que mudou o mundo. 3ed. Campus, Rio de Janeiro Womack JP, Jones DT (2004) A Mentalidade Enxuta nas Empresas (lean thinking): Elimine o Desperdício e Crie Riqueza. Campus, São Paulo Araujo CAC (2004) Desenvolvimento e Aplicação de um Método para Implementação de Sistemas de Produção Enxuta utilizado os Processos de Raciocínio da Teoria das Restrições e o Mapeamento do Fluxo de Valor. Dissertação de Mestrado. EESC/USP, São Carlos Cachon G, Terwiesch C (2009) Matching supply and demand, Internationalth edn. McGraw-Hill, Singapore Ohno T (1988) Toyota production system. Productivity, Cambridge Shingo S (1989) A study of the Toyota production system from an industrial engineering viewpoint. Productivity, Portland Spear SJ, Bowen HK (1999) Decoding the DNA of the Toyota production system. Harv Bus Rev 77(5):97–106 Shah R, Ward PT (2007) Defining and developing measures of lean production. J Oper Manag 25(4):785–805 Pavnaskar SJ, Gershenson JK, Jambekar AB (2003) “Classification scheme for lean manufacturing tools”. Int J Prod Res 41(13):3075–3090 Li S, Subba Rao S, Ragu-Nathan TS, Ragu-Nathan B (2005) Development and validation of a measurement instrument for studying supply chain management practices. J Oper Manag 23(6):618–641 Seth D, Gupta V (2005) Application of value stream mapping for lean operations and cycle time reduction. Prod Plan Control 16(1):44–59 Hines P, Rich N, Esain A (1999) Value stream mapping—a distribution industry application. Benchmark Int J 6(1):60–77 Lasa IS, Laburu CO, Vila RC (2008) An evaluation of the value stream mapping tool. Bus Process Manag 14(1):39–52 Basu R (2009) Implementing Six Sigma and lean: a practical guide to tools and techniques. Butterworth-Heinemann, Oxford Boeing (2002) Literature: tactics to improve operational efficiency Boeing (2013) 777 moving production line—benefits. http://www.boeing.com/boeing/commercial/777family/777movingline.page Lean Man (2010) TIMWOOD 7 seven wastes. http://leanman.hubpages.com/hub/Seven-Wastes# Lund E (2006) Boeing now building 777s on a moving line assembly. Magazine Assembly, December McManus H (2000) “Seeing and improving the product development value stream”. LAI Executive Board Presentation Baxter D, Gao J, Case K et al (2008) A framework to integrate design knowledge reuse and requirements management in engineering design. Robot Comput Integr Manuf 24:585–593 Meyer JD (1988) Applications of robots. International Encyclopedia of Robotics: Applications and Automation, New York Zimmerman EH (2001) Getting factory automation right: the first time. SME, Dearborn Waurzyniak P (2006) Modular automation for the aerospace industry. Manufacturing Engineering magazine, p.81, March Lopes KLGV (2007) Introdução a Automação Industrial. Branqs Automação, Brazil Hopp WJ, Spearman ML (2001) “Factory physics”. McGraw Hill Companies Inc, USA, p 252 Keil S et al (2011) Establishing continuous flow manufacturing in a Wafertest-environment via value stream design. 22nd Annual IEEE/SEMI Advanced Semiconductor Manufacturing Conference, NY Gerhardt MP (2005) Sistemática para Aplicação de Procedimentos de Balanceamento em Linhas de Montagem Multi-Modelos. Dissertação de Mestrado pela Universidade Federal do Rio Grande do Sul Slack N et al (2007) Administração da Produção. Editora Atlas, São Paulo ST. Aubyn M et al. (2009) Study on the efficiency and effectiveness of public spending on tertiary education. Economic Papers 390 Zolfaghari S, Roa EVL (2006) Cellular manufacturing versus a hybrid system: a comparative study. J Manuf Technol Manag 17(7):942–961 Tortorella GL, Fogliatto FS (2008) Planejamento Sistemático de Layout com Apoio de Análise de Decisão Multicritério. Produção, v.18, no3 Liberopoulos G, Kozanidis G, Tsarouhas P (2007) Performance evaluation of an automatic transfer line with WIP scrapping during long failures. Manuf Serv Oper Manag 9:62–83 Aris RB (2006) Maintenance factors in building design. Tese (Mestrado). Faculdade de Engenharia Civil—Universidade de Tecnologia da Malásia. Maio Melhado SB, Mesquita MJM (2005) Gestão do Ciclo de Vida do Empreendimento: Estratégias para eficiência e eficácia com base na interface Operação—Concepção. IV SIBRAGEC—Simpósio Brasileiro de Gestão e Economia da Construção, Porto Alegre Tsarouhas P (2007) Implementation of total productive maintenance in food industry: a case study. J Qual Maint Eng 13(1):5–18 Kunde WG (2009) Setup rápido: uma atividade que alia o conhecimento técnico e a criatividade. Gestão da Produção e Qualidade, Novembro Streeck W (1988) The firm as a place of training and learning. The Transformation of Firm and Work. Il Mulino, Bologna Fulkerson B (1997) A response to dynamic change in the market place. J Decis Support Syst 21:199–214 Newcomb PJ, Bras B, Rosen DW (1996) Implications of modularity on product design for the life cycle. ASME design engineering technical conferences, DETC96/DTM-1516, Irvine, CA Oborski P (2004) Man–machine interactions in advanced manufacturing systems. Int J Adv Manuf Technol 23(3–4):227–232 Beauchamp Y, Stobbe TJ (1995) A review of experimental studies on human-robot system situations and their design implications. Int J Hum Factors Manuf 5(3):283–302 Edwards WK, Poole ES, Stoll J (2007) Security automation considered harmful? School of Interactive Computing and GVU Center—Georgia Institute of Technology, Atlanta, pp 33–42 Tan JTC et al (2009) Safety design and development of human-robot collaboration in cellular manufacturing. 5th Annual IEEE Conference on Automation Science and Engineering Bangalore, India Navon R, Shpatnitsky Y (2005) Field experiments in automated monitoring of road construction. J Constr Eng Manage 131(4):487–493 Potkonjak V et al (2000) Dynamics of anthropomorphic painting robot: quality analysis and cost reduction. Robot Auton Syst 32:17–38 Skibniewski M, Hendrickson C (1988) Analysis of robotic surface finishing work on construction site. J Constr Eng Manage ASCE 114(1):53–68