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Despite its difficulty, aerospace design and development\nmust adhere to strict schedules. Delays in progress can cost the company\nmillions of dollars in extra development and follow-on effects of late entry\ninto service. What\u2019s more, errors in design can snowball into larger problems\nwhen manufacturing begins, further jeopardizing progress. Even small inaccuracies\nin wire lengths or spacing between bundles can prevent the proper installation\nof the wire harnesses. This not only adds significant cost but also can delay\ndelivery of aircraft to customers, affecting the company\u2019s reputation and stock\nprice.<\/p>\n\n\n\n
Facilitating collaboration through ECAD\/MCAD co-design and data exchange<\/h4>\n\n\n\n
There is immense pressure on aircraft design teams to move\nquickly and hit program milestones. This can erode the motivation to perform\nextra analysis and validation of aircraft designs before release to initial production.\nChanges that are made without proper communication between the electrical and\nmechanical domains can inadvertently introduce EWIS violations into the design.\nIf these go undetected until critical design review, the manufacturer will need\nweeks or even months to re-design, re-verify, re-release, and then retrofit\neach plane under construction. Such mistakes are incredibly costly and can put\nprograms, careers, and even companies at risk.<\/p>\n\n\n\n
Facilitating collaboration among the electrical and\nmechanical engineering domains will be a crucial strategy to avoiding such\ncostly issues moving forward. The optimal strategy is to use a process that\nallows for the incremental and digital exchange of ECAD and MCAD design data\nthroughout the design process. Incremental data exchange ensures that the\nrelevant multi-disciplinary features in the ECAD and MCAD platform\nrepresentations are synchronized at each point in the design. This continual synchronization\ncreates a steady line of communication between the electrical and mechanical\nengineers, increasing productivity and reducing design errors. <\/p>\n\n\n\n
Previous efforts to collaborate have met with limited\nsuccess. Earlier ECAD-MCAD collaboration attempts used everything from sticky\nnotes and email, to spreadsheets. These approaches fell far short. As a result,\nmany aerospace development teams resorted to internally developed software and\nprocesses for collaboration that they had to test and verify with each new\nrelease of the underlying ECAD and MCAD tool suites. These locally developed\nsoftware and processes were costly to maintain and required dedicated in-house\nsupport.<\/p>\n\n\n\n
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