CONTEXT
Global Analysis and Research
Vice President

Mr. Chris Connery 日英同時通訳（同）

Offering a timely look at the global Additive Manufacturing industry, CONTEXT will present its latest quarterly findings surrounding the 3D Printing industry. Using its easy-to-follow price-class, process and material categorizations, CONTEXT will show a full analysis of machine shipments around the globe to set the stage for the event. CONTEXT's head of global Analysis

株式会社矢野経済研究所
ICT・金融ユニット
主席研究員

小山 博子氏

日本国内のAM市場（3Dプリンタ市場）について、デジタルものづくりの状況をみながら市場規模（需要分野別を含む）を確認するとともに、直近の事例や市場が伸び悩む課題について考えます。

Product Prototyping: Building Better with 3D Printing

Google
Technical Program Manager, Pixel

Ms. Anne Pauley 日英同時通訳（同）

Anne Pauley is a Technical Program Manager at Google working on the Pixel line of products. She works with engineering and operations teams to optimize product assemblies during the design process. Outside Google, Anne leads the San Francisco chapter of Women in 3D Printing, is a technology resident at Autodesk Pier 9 working on 3D printing for automotive with Girl Gang Garage, and is a faculty member at The Crucible teaching 3D printing. She also has a 3D printing studio in Oakland, California supporting art and material development projects.

While it's common knowledge that additive manufacturing (AM) has become an integral tool in product development, it can be difficult to know how to fit AM into your workflow. In this talk we will discuss how to effectively utilize additive manufacturing to accelerate product development, and prepare designs to ramp up to production. This will include an overview of the common additive technologies and materials currently used by product designers as well as the advantages and disadvantages of each from a product development perspective. Building on this overview, we will be discussing example workflows and case studies where additive manufacturing was used effectively to reduce time to market and mitigate process and design risk.

Satellite Applications Catapult
In Orbit Servicing Assembly and Manufacturing
Director

Mr. Mike Curtis-Rouse

Mike Curtis Rouse is a leading figure in shaping Europe's In orbit Servicing, Assembly, and Manufacturing (ISAM) capabilities, renowned for his disruptive approach and deep expertise in robotics, space technology, and material science. As Head of ISAM at the Satellite Applications Catapult, he leads a multidisciplinary team of engineers, technologists, and analysts whose combined experience spans spacecraft, launch operations, automotive, manufacturing, and maritime sectors. With a clear ambition to position the UK at the forefront of the emerging commercial space economy, Mike drives advancements in in orbit servicing, robotics, manufacturing, and propulsion technologies. Under his leadership, the team operates Europe’s largest close proximity operations simulator, alongside state of the art facilities for rocket engine design and manufacturing, both located at Westcott Venture Park a site renowned for its heritage in propulsion development and testing. Mike's career includes prior roles at Second Star, Reaction Engines, the European Space Agency, Rutherford Appleton Laboratory, the Mitre Corporation, and CERN, reflecting his extensive contributions to cutting edge technological innovation. He is also a prominent figure in the space industry, frequently speaking at conferences and events to share insights on the future of in orbit servicing, assembly and manufacturing.

Advanced Manufacturing in Space: Redefining How We Build Beyond Earth. explores the cutting edge technologies enabling a new era of space based production. This session highlights advancements in net shape manufacturing, where components are fabricated to near final form in microgravity, minimizing waste and reducing material needs. We will discuss design for manufacturing principles optimized for zero gravity environments, allowing the creation of lightweight, large scale structures impossible on Earth. A focus on sustainable supply chains will showcase how in space manufacturing reduces reliance on costly Earth launches by producing and servicing assets directly in orbit. Finally, we will examine the future potential of in situ resource utilization using materials from the Moon or asteroids for construction and manufacturing.. Join us to discover how advanced manufacturing technologies are driving the shift from Earth-based production to sustainable, scalable operations in space.

株式会社みずほ銀行
産業調査部
アナリスト

秋山 紀子氏

1995年 東京大学理学部卒業
2014年 みずほ銀行入社
2022年よりみずほ銀行産業調査部在籍、主に工作機械を担当し、周辺業界の調査にも従事

金属AMは、DfAM活用による設計自由度の拡大により、様々な産業で技術革新を起こす可能性を秘めるものの、コスト面などの課題により、日本では量産品や製品への活用が遅れている。一方で欧米、中国を中心とする海外では量産品への活用の意欲が高まりを見せており中期的に製品設計の前提が変化する可能性があるため、相対的に日本の製造業の競争力低下につながると危惧される。日本での金属AMの本格導入初期において重要となるいくつかの考察を以って、日本の製造業の競争力維持・強化の一助としたい。

Tapestry, Inc. (Coach, Kate Spade, Stuart Weitzman)
Product Development, Digital Product Creation, 3D Print Studio
Rapid Prototyping Manager, 3D Print Studio

Mr. Tomer Emmar 日英同時通訳（同）

Hands-on & tactical leader with 9+ years of experience advancing product development and design innovation, cross-functional collaboration, and rapid prototyping capabilities in the fashion industry. Over the years, Tomer has successfully established productive relationships with key internal partners such as Design, Product Development, Raw Material Suppliers, Legal & Compliance, Facilities, and IT Teams as well as external vendors such as equipment manufacturers, software providers, and contractors to help advance Additive Manufacturing capabilities at Tapestry across all brands and categories. Tomer and his team bring speed and accuracy to the product creation process, reduce overall product development timelines, and minimize reliance on overseas factories by leveraging in-house 3D workflows to help globally distributed teams gain early visibility into newly manufactured products. Tomer has a proven track record building cutting-edge rapid prototyping facility and effectively leading high-performing teams; continuously improving 3D design processes & staying on top of industry trends to increase output quality, bring agility to product creation, and mitigate supply chain disruptions.

Advocating for implementing Additive Manufacturing technologies for rapid prototyping in traditional industries can help organizations (1) enhance cross-functional collaboration, (2) shorten product development timelines, (3) reduced costs at various points along the product creation journey.

This abstract explores how traditional organizations can extract value and reduce costs from Additive Manufacturing technologies during the early phases of the product development cycle.

株式会社アスペクト
代表取締役社長

早野 誠治氏

1980年早稲田大学を業。同年三菱商事株式会社に入社(1996年退社)。1986年に光造形技術に出会う。1990年シーメット株式会社を設立。1993年理化学研究所研究員、光造形産業協会事務局長（~1996年）、1996年株式会社アスペクト設立、代表取締役社長　現在に至る。また、2004年ラピッド・プロトタイピング産業協会理事（~2008年）、2014年～ 3Dプリンター振興協議会代表、2021年~（一財）素形材センター理事を兼任

AMは、1980年初頭から試作用途を始めとしてその時代時代で変革してきた。だが、社会一般で言われているオールマイティな装置は、かなりの時間を要し実現の目途はたっていない。しかし、ASTM７分類それぞれで分類別の特徴を活かした活用がなされてきており、それらが無くなることはない。それは、各分野での活用するアプリが明確になってきたと言えるだろう。ただ、AM利用の向上を図るためには、ものづくりの現場で使われる必要があるが、造形速度や品質、コストが課題として考えられている。各分類における特徴を生かした技術開発が、実用化への近道であると考えている。