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After a decade of being equated to a Robot*, Matt awakened to realize he was Human After All** - and thus Not a Robot Engineering was born. Even so, Matt continuously feels the pull back to the robot side, causing him to forever evaluate what it means to be Something Human***.Matthew is an award-winning leader in the computational design of advanced 3D-printed medical implants, with over a decade of experience in engineering, research, and innovation. He is the founder and principal engineer of Not a Robot Engineering, a premier engineering consultancy firm that excels at providing solutions where internal teams or other consultants have fallen short. His lends his technical services as a fractional CTO to companies like Allumin8 and Uniphorm, each building class-leading solutions in their respective fields. In addition, he is a guest lecturer at Massachusetts Institute of Technology, where he shares his insights and expertise on biomimicry, computational modeling, and additive manufacturing.Matthew's work is driven by his passion for exploring the macro and micro of biological forms, turning algorithms into functional structures for physical devices. He has pioneered the idea of a “biologically advantageous implant,” and leads various areas of research on reducing an implant’s footprint inside of the body. He has also spearheaded multiple public initiatives to synthesize biological structures as computational models for use in engineered products. His work has been published in multiple journals and magazines, and he is a regularly-referenced expert and speaker on topics related to next-gen modeling and additive development. Matthew's mission is to bridge his deep curiosity about mathematics and the natural sciences with a drive to bring these ideas through execution in a form that can truly impact our lives."Virtually all creative endeavors have limitations. Although boundless creativity exists inside the human brain, a substantial constraint of humans is the inability to parse and process large datasets. Computational design removes this limitation, giving designers the ability to morph this data into functional products, solutions, and actions"* iRobot - Jon Bellion** Human After All - Daft Punk*** Something Human - Muse
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FounderNot A Robot Engineering Apr 2023 - PresentFounder / Principal Engineer for Not a Robot Engineering, a premiere engineering consultation firm that excels at providing solutions where internal teams or other consultants have fallen short. Combining field-based design, algorithmically-driven workflows, simulation feedback loops, advanced implicit modeling, and other next-gen techniques with traditional modeling to drive unique design outputs that exceed the requirements. -
Cto / Co-FounderUniphorm Jan 2024 - PresentUniphorm is reimagining garments utilizing body scanning, machine learning, computational design, and advanced manufacturing. -
Fractional CtoAllumin8 Jul 2023 - Present -
CeoLatticerobot May 2023 - PresentDayton, Oh, UsFounder | CEOLatticeRobot is a community of engineers, researchers, and designers working together to create, aggregate, analyze, and discover lattices! -
Board Treasurer3D Printing Mentality Feb 2023 - PresentMember of the Board of 3D Printing Mentality, a non-profit that develops the next generation of 3D printing professionals through creative opportunities. Individuals will learn to overcome knowledge barriers, become empowered in their communities, and make an impact in the growing industry of 3D printing. Learn. Empower. Impact. -
Advisor / ConsultantPitch Sink May 2024 - Nov 2024Pre-vetted consultant for the premiere consulting network pitch sink - designed to usher in a transformative era for the medical device sector by establishing an innovative platform dedicated to fostering medical device breakthroughs.Specialties : additive manufacturing, computational design, biomimicry, FEA and analysis, biological integration considerations -
Council MemberGlg May 2019 - May 2024New York, Ny, Us -
Guest LecturerMassachusetts Institute Of Technology May 2023 - Jan 2024Cambridge, Ma, Us -
Director Of EngineeringMarle Tangible Jan 2019 - Apr 2023Fairborn, Ohio, UsDirector responsible for the building of and management of the engineering department - including all direct reports - supporting development of new product lines and the sustainment of existing ones. Responsible for all aspects of engineering to support manufacturing, quality, and executive functions. Key tasks and duties include:- Working with customers to optimize and refine designs for additive manufacturing- Internal and external subject matter expert on biologically-advantageous designs- Working with internal operations to design additive parameters and support strategies that enhance downstream operations and reduce cost- Direct research and collaborations with external partners and universities- Working with internal quality to design and manufacture parts that reduce inspection time or number of inspection points- Responsible for the development of all process parameters for the additive equipment- Responsible for the operation and upkeep of the additive equipment -
Lead Engineer - Medical DevicesMarle Tangible Mar 2018 - Jan 2019Fairborn, Ohio, UsLead Engineer for an additive manufacturing company leading the charge into the next-generation of medical device design, development and production. Subject matter expert in the application of additive technologies and material parameters to medical devices - specifically in the orthopedic sector. Proficient in understanding design intent and requirements and translating them into a robust design with a focus on lean manufacturing and cost-effective solutions. Responsible for all aspects of leading engineering including:- Design for Additive- Expert in 3D design including surface modeling and split bodies- Lattice creation - Stochastic Lattices with Custom Beam Forms - Patterned geometrice lattices - Conformal Structures- Process Engineering - including machine and process validations- Design for Cost- Design for ManufactureTangible Solutions is an ISO 13485- and ISO 9001-cleared additive manufacturing company registered with the FDA, and is leading the charge into next-generation manufacturing of medical devices. With a focus on unparalleled quality and aggressive attitude towards engineering excellence, Tangible desires to partner with companies focused on expanding their product portfolio into the next level utilizing additive manufacturing. With multiple manufactured product lines residing in numerous patients worldwide, Tangible is focused on becoming an industry leader in its field. Reach out for inquiries at mshomper@tangiblesoutions3d.com
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Senior Lead - EngineeringXtant Medical Jan 2016 - Mar 2018Belgrade, Mt, UsSenior Engineering Lead responsible for leading multiple teams in the design and development of spinal implant systems, specifically in the cervical spinal region. Responsible for all aspects of design, including project plan, timeline, BOM, risk management, design inputs/outputs, verification, validation, 510(k) submission, IFU, quality and regulatory. Directly responsible for all aspects of assigned resources working on managed projects.Currently developing:• A porous cervical interbody cage utilizing partnered technology, focusing on simplified instrumentation across multiple product lines.• Micro-textured surface properties utilizing HPCS process• Researching additively manufactured lattice utilizing an organic microstructure design mimicking bone.Key Efforts:• Responsible for oversight of research projects being conducted with undergrad and Masters’ students partnering with local universities - Oversaw a research project studying the effects of interbody cage endplate geometry on subsidence (publication pending) - Oversaw a research project studying the effects of load bearing on posterior interspinous fixation utilizing FEA• Responsible for directing efforts for next-generation cervical technologies utilizing additive manufacturing. -
Lead Project EngineerXtant Medical Nov 2013 - Dec 2015Belgrade, Mt, UsProject Engineer leading a team in the design and development of a cervical spinal implant system, bringing the project from concept to released product. Responsible for all aspects of design, including: project plan, timeline, BOM, risk management, design inputs/outputs, verification, validation, 510(k) submission, IFU, quality and regulatory. Developed complex cervical plates and screws, achieving all performance goals of key opinion leaders and company stakeholders while completing the design within timeline and budget constraints.Key Efforts:• Developed novel implant design to reduce material while strengthening the implant, as well as provide increased adaptability during implantation.• Created highly precise interface features to allow simplified implant-instrumentation engagement and ease problem areas during implantation, as well and provide the ability to adjust in situ.• Created FEA simulations, prototypes, and test plans that refined implant and instrument designs and verified design inputs/outputs.• Attended cadaver labs and active surgeries in order to validate system design and worked with surgeons and clinical staff to identify limitations and improve device performance.• Discussed system performance and custom instrument requests with surgeons, distributors, and sales representatives.• Oversaw supplier relationships that supported sterilization case design, external testing, and prototype manufacturing, and performed supplier site visits.
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Project EngineerXtant Medical May 2013 - Nov 2013Belgrade, Mt, UsProject Engineer for a forward-thinking, innovative spinal implant company. Responsible for defining product requirements, researching and analyzing competition, and designing implants and surgical instruments from concept to development, utilizing Solidworks 3D modeling, and ASME Y14.5M-2009.Key Efforts:- Multiple facets of sustaining engineering to maintain product compliance- Develop input and output documentation - including DHF and DMR - and maintain documentation throughout the entirety of development- Applying risk management to product development, including application of DHA, RMP, DFMEA, and design inputs-Developing thorough documentation for a streamlined 510(k) submission process.-Current and past product ongoing maintenance.
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Medical Engineer, New Product DevelopmentCincinnati Sub-Zero Jun 2011 - May 2013Cincinnati, Ohio, UsDesign and Continuous Improvement Engineer of an integrated product team that is designing and developing class II medical devices for use in life-saving open heart surgeries, specializing in heating and cooling solutions. Responsible for creation and maintenance of a complex 250-piece Bill of Material, $1.25M inventory cost per year. Responsible for updating and creating complex electro-mechanical designs as needed using 3D modeling software In charge of maintaining inventory and ordering status for all R&D projects. Specialize in drawing creation for all new parts in R&D.Key Efforts:- Led a fabrication redesign effort to replace outdated metal assembly designs with innovative parts that cut costs, weight and manufacture time. This ultimately led to a savings of $100,000 per year.- Manage a team of co-ops in specific unit testing and drawing creation. Responsible for all aspects of resource allocation and verifying tasks were done on schedule.- Design and implement an interactive fabricated parts cost calculator for engineering use. The tool can be used to estimate potential cost impacts of a fabricated part redesign.- Redesigned a product cold water reservoir and created an innovative design to improve air circulation to increase functionality and provide the medical device with the ability to perform above specifications -
Project LeaderCedarville University May 2010 - Jul 2011Cedarville, Oh, UsTeam Leader of an innovative biomedical engineering project that designed and fabricated a motorized walker for children with cerebral palsy while maintaining specifications and observing cost, schedule, and market-driven needs. Led team in research of gait-training methods suitable for correcting and strengthening gait in children to assist them in learning how to appropriately walk by increasing bone mass and muscle strength and coordination.Key Efforts:- Designed an “intuitive” control system to allow the walker to be controlled by disabled children via a joystick mounted near their hand.- Led a team in creating an innovative design, resulting in the completion of measured goals, most notably: internal wiring, low unit weight, folding design, and compatibility with commercially-available accessories.- Oversaw patient-use testing to ensure measured improvements in gait training, ultimately finding a doubled increase in the children’s time on their feet, which exceed the therapists’ expectations and increased bone mass and musculature, resulting in the project’s success.- Led a team in full-scale technical documentation of design process into implementation for future work.- http://www.youtube.com/watch?v=Pi3GzJiM4Kc [Video of 7-year-old child using design]. -
Biosystems Project LeaderCedarville University Jan 2009 - Jan 2010Cedarville, Oh, UsTeam leader of a bio-systems project designed to monitor and predict any anomalies preceding sudden cardiac death (SCD) in patients. Analyzed EKG signals to determine patterns before SCD, and created an algorithm to examine input and provide a warning at some length before an issue manifested itself. The design was able to provide advance warning of up to 5 seconds before SCD with a 70% diagnostic accuracy, allowing for intervention via a pacemaker if necessary.
Matthew Shomper Skills
Matthew Shomper Education Details
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Cedarville UniversityBiomedical Engineering
Frequently Asked Questions about Matthew Shomper
What company does Matthew Shomper work for?
Matthew Shomper works for Not A Robot Engineering
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What schools did Matthew Shomper attend?
Matthew Shomper attended Cedarville University.
What skills is Matthew Shomper known for?
Matthew Shomper has skills like Product Development, Medical Devices, Solidworks, Biomedical Engineering, Design For Manufacturing, Mechanical Engineering, Iso 13485, Autocad, Microsoft Office, R&d, Matlab, Design Control.
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