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Systems engineering in energy and utilities

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Engineers collaborating using a digital twin of a power plant

<p>Complexity is growing in the energy and utilities industry. Within businesses, this is creating data silos and misaligned objectives while reducing collaboration and communication. As a result, most major capital and operational projects are over budget and behind schedule.</p><p>Watch our webinar to learn how adopting a systems engineering approach improves connectivity between requirements and data within your asset lifecycle. This creates a single unified digital twin of your entire enterprise. Hear how systems engineering improves process efficiency, drives collaboration and enables data-driven decision-making.</p><h2>Apply functional requirements software to achieve operational excellence</h2><p>Poorly-integrated legacy software and subsystems extend project lifecycles, slow project development and reduce business efficiency. With systems engineering, your software systems are designed to seamlessly deliver project and contract requirements using higher quality data. Business information systems are now integrated into a central digital backbone, and important data becomes easy to find.</p><p>Functional requirements software improves communication and collaboration, eliminates silos and helps your business react faster to unforeseen circumstances.</p><h2>Fully traceable digital platform supporting global energy teams</h2><p>Despite years of effort attempting to integrate project teams and promote collaboration, connectivity and awareness across teams still needs to improve.</p><p>With a systems engineering approach, everyone connected to a project knows what is going on. Changes are now tracked, and project teams are supported by optimized systems. Through cross-domain communication and collaboration, energy and utilities businesses can create improved configurations and solve engineering problems faster. Knowledge workers executing a capital project or maintaining complex assets can better respond to challenging situations.</p><h2>Minimize project impacts with a system integration process</h2><p>Many experienced energy and utilities workers are nearing retirement, potentially taking with them priceless information about your business. A robust systems integration process provides a traceable environment with a digital record of product and process information.</p><p>Regardless of why personnel changes, new talent can quickly become proficient while making data-driven decisions using the latest digital solutions.</p><h2>Audit project revisions with software change impact analysis</h2><p>Project requirements and developments change over time. Cope with change and vendor expectations using fully connected data sources. Software change impact analysis can check back to original intent from years earlier via connected artifacts and relationships.</p>
Watch our webinar to learn how adopting a systems engineering approach improves connectivity between requirements and data within your asset lifecycle. This creates a single unified digital twin of your entire enterprise. Hear how systems engineering improves process efficiency, drives collaboration and enables data-driven decision-making.

講演者の紹介

シーメンスデジタルインダストリーズソフトウェア (DISW)

John Nixon

シニア・ディレクター、エネルギー/ユーティリティ

Johnは、シーメンスDISWのエネルギー/ユーティリティ担当のグローバル戦略リーダーです。

エネルギー/ユーティリティ業界での経験が28年以上あります。中国、ルーマニア、パナマ、米国で、エネルギーとテクノロジーの事業開拓に携わる複数のスタートアップ企業を立ち上げた実績もあります。また、カナダと中国の石油・鉱業大手と共同で大規模なグリーンフィールドおよびブラウンフィールド・プロジェクトを、米国とメキシコではパイプラインの資産健全性管理プログラムを主導しました。さらに、パイプライン技術の特許を保有しており、複数のテクノロジー企業や大学の研究開発組織の役員を務めています。米国陸軍の将校でもあり、テキサスA&M大学で土木工学の学士号を取得しています。

Siemens Digital Industries Software (DISW)

Ed Leggott

Presales Solution Consultant, Energy & Utilities (DISW)

Ed Leggott is a Systems Engineer with over 10 years industry experience from both
Oil & Gas and Aerospace.

Siemens Digital Industries Software (DISW)

John Lusty

Global Industry Marketing Lead, Energy & Utilities

John is the Energy & Utilities industry marketing lead for Siemens DISW.

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