Innovation and Technology Archives | 做厙勛圖 /blog_category/innovation-and-technology/ Experience | Passion | Purpose Mon, 21 Oct 2024 20:53:27 +0000 en-US hourly 1 /wp-content/uploads/cropped-做厙勛圖-Favicon-32x32.png Innovation and Technology Archives | 做厙勛圖 /blog_category/innovation-and-technology/ 32 32 做厙勛圖s UAS Business and TB2 Aerospace Partner to Enhance Contested Logistics Operations /blog/amentums-uas-business-and-tb2-aerospace-partner-to-enhance-contested-logistics-operations/ Mon, 16 Sep 2024 14:00:00 +0000 /?post_type=blog&p=14921 We are enhancing the operational capabilities of military unmanned aerial systems (UAS) through the innovative Drone Recharging Operational Payload System […]

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We are enhancing the operational capabilities of military unmanned aerial systems (UAS) through the innovative Drone Recharging Operational Payload System (DROPS). 做厙勛圖s autonomous and unmanned systems business is partnering with TB2 Aerospace to provide comprehensive military customer training, after-market parts, in-field support, and system sustainment to ensure the success and longevity of the DROPS technology in various military operations.

The TB2 DROPS is a versatile, platform-agnostic, UAS payload delivery system designed to autonomously capture and deliver a payload to warfighters (e/VTOL) UAV. The modular and reconfigurable design of DROPS allows it to seamlessly integrate with various UAV platforms, ensuring that it can be utilized across different mission profiles. 

Built to be field-swappable, the DROPS system features Modular Mission Payloads (MMP) and adheres to the USSOCOM MOD Payload Design Standard. Its avionics and power systems are MOSA-compliant, enabling rapid changes in the field akin to aircraft avionics Line Replaceable Units (LRU). 

 The integration of the DROPS cargo pod and payloads with our existing support infrastructure is a game changer for military operations, said Art Boghozian, Director of Business Development – UAS/cUAS at 做厙勛圖. This partnership not only enhances the capabilities of UAVs in the field but also ensures that soldiers can easily access supplies without extensive training, allowing them to focus on the mission at hand.

The DROPS cargo pods and payloads is designed for fully autonomous operations, capable of docking with and being delivered by any UAV with vertical landing capabilities. Whether stationed on a ground base or a moving vehicle, the system ensures that the cargo is delivered safely and efficiently. The pods come in various sizes, accommodating UAV groups 1-5, and have been successfully integrated with UAVs from multiple manufacturers in groups 1-3. In addition to the cargo pods payloads under development for the DROPS system include quadrupeds, C-UAS pods, and even a CASEVAC pod.

 As part of the partnership, 做厙勛圖 will provide comprehensive training programs, ongoing maintenance, and field support to ensure that military units are fully equipped to leverage the DROPS technology in any operational environment.

做厙勛圖 TB2

TB2 Aerospace, an aeronautical innovation company, was formed in Colorado, USA in late 2020 by retired Naval Aviator and Aeronautical Engineering Professor Hank Scott. Alongside a team of engineers and former Naval and Army Aviators, TB2 has developed the patented DROPS (Drone Recharging Operational Payload System) system which enables fully autonomous UAV capture, delivery and recovery of payloads. This groundbreaking system is poised to revolutionize and automate UAV operations on the battlefield and create a Military Multi-Mission Payload System.

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做厙勛圖 Team Provides Remote Support to Ukraine /blog/amentum-team-provides-remote-support-to-ukraine/ Thu, 19 Oct 2023 15:33:27 +0000 /?post_type=blog&p=12654 做厙勛圖 leadership team at the Remote Maintenance and Distribution Center location in Poland. (做厙勛圖 photograph) Somewhere on a base in […]

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做厙勛圖 leadership team at the Remote Maintenance and Distribution Center location in Poland. (做厙勛圖 photograph)

Somewhere on a base in southeastern Poland, 做厙勛圖 team members are answering calls from Ukrainian soldiers on the battlefield about how to fix their U.S. donated equipment. Working with the U.S. military, the 做厙勛圖 team uses encrypted programs and translators to chat with the Ukrainians, advising them on solutions in real-time. 

As the U.S. and other allies send equipment to Ukraine, help is a tele-maintenance remote expert away.

The world and our technology are evolving at a rapid pace, and so should our ability to provide near-instantaneous support, said the 做厙勛圖 lead for its Sustainment and Analytics business line. We dont need to transport subject matter experts on-site, we can instead provide experts remotely whether we need to advise on a vital repair to an M-1 Abrams tank, or simply conduct an audit on airframe systems.

The work in Poland is part of a U.S. Army remote maintenance and distribution contract on which 做厙勛圖 delivers equipment sustainment, remote maintenance assistance to support U.S. donated assets at forward operating locations, and managing the ordering, receiving, warehousing, and distributing of repair parts.

Currently, remote maintenance support is provided through phones and tablets using encrypted chatrooms. Soon, 做厙勛圖 will integrate a new technology, introducing augmented reality headsets into its maintenance operations. The headset is fully calibrated for hands-free use so frontline workers can easily connect with remote experts in real time, from anywhere, using secure optimized video collaboration applications.

The 做厙勛圖 team has successfully integrated in the U.S. military operations cell, said one on-site employee. We realigned some job roles to gain efficiencies in information flow and synchronization of operations amidst multinational stakeholders.

Weve also been evolving our transient maintenance capabilities as we go, said another on-site employee. An 做厙勛圖 team was deployed out to another location in Poland and in just three days, conducted the equipment inventory, loading and unloading operations, and the vehicle maintenance to prepare the equipment for use at forward locations.

In the first four months of the program, 做厙勛圖 has filled 605 work orders, opened a 4,666 line supply support activity and maintained 100 percent accuracy, while supporting the movement of 534 pieces of equipment.

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Developing the H2 Energy Paradigm /blog/developing-the-h2-energy-paradigm/ Fri, 30 Jun 2023 19:24:47 +0000 /?post_type=blog&p=11777 Throughout my 40-year career which includes experience in commercial energy, the U.S. Department of Energy, in NASA markets, and 19 […]

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Throughout my 40-year career which includes experience in commercial energy, the U.S. Department of Energy, in NASA markets, and 19 years as a teaching/adjunct university professor, I have been a proponent of the development of a sustainable, multifunctional, and multi-sourced global energy mix that is ubiquitous and efficient, clean from source derivation to utilization. This has always included steps towards reducing carbon emissions and mitigating excessive human impact on our environment. A prominent, and growing, component of this is the use of hydrogen as an energy carrier commonly referred as the H2 Energy Mix.

Hydrogen can be produced from a variety of sources, including renewable energy sources such as wind, solar power, as well as nuclear, natural gas, biogas sources, etc. However, to be considered a sustainable component of the energy mix, hydrogen must be produced using these sources in an efficient and by-product reducing process. Of course, this includes carbon reduction methodologies.

One way to produce renewable hydrogen is through electrolysis, where water is split into hydrogen and oxygen using electricity from renewable sources. Hydrogen can be used to power fuel cells, which generate electricity with water as the only fuel byproduct.

In addition to being a clean natural source of energy, hydrogen has the potential to be used in a variety of applications, including transportation, power generation and industrial processes. For example, hydrogen fuel cells are already being developed and deployed in some parts of the world, while power plants are being designed to use hydrogen as a combustion or pre-mix fuel.

The highly detailed version of the United States (US) DOE energy mix use by type Sankey Diagram (see below) clearly provides an explanation for Why Hydrogen. Of the 97.3 quadrillion BTUs used in the US in 2021, more than a third came from oil and is dominantly in transportation. However, a large portion of oil is used as an industrial working fluids and for chemical production feedstocks.

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Two other obvious conclusions can be drawn from the data shown on this diagram. Coal is only 10% of our energy supply and it is primarily used for electricity. However, we lose more electricity every day due to generation losses than is generated by coal combustion. In the immediate future coal fired electricity is needed in some areas to balance the national grid, and coal fired generation is one of our more efficient energy sources, however, it is an overall thermodynamic loss process and can, in time, be replaced by localized distributed grid generation sources such as hydrogen. This alone would greatly reduce the overall environmental impact of our national energy portfolio.

The electrification of vehicles, with heavy support from hydrogen generation is an area of great opportunity. It is not currently reasonable to electrify all vehicles but some fleets, such as localized delivery, localized transportation and personal vehicles is an efficient alternative from an energy utilization perspective. The current questions about the overall environmental impact of lithium batteries used in transportation can be somewhat answered by using hydrogen fuel cells to power these vehicles.

Almost another third of our national energy comes from natural gas which is more diversified in its use and a much cleaner fuel resource than oil. It is abundant and well-understood, so its use will continue to grow potentially as a hydrogen source via catalytic conversion, direct use in efficient methane fuel cells, and in newly developing technologies.

It is estimated over the next decade energy use and demand will continue to increase at more than 5% year over year which suggests that hydrogen utilization and potentially small modular reactors will replace sources such as coal. By 2030, the current national goal is that hydrogen and other sources will provide baseload distributed energy for up to 40% of the US electrical energy needs. Much of this can be done with todays technology and certainly with the technology currently planned for development.

To grow a sustainable, multi-functional and multi-sourced global energy mix, it is important to invest in research and development of new technologies and infrastructure needed to produce, store, and transport hydrogen. This includes building out the necessary infrastructure, such as pipeline and storage facilities, and developing new materials and technologies for hydrogen production and transport.

Overall, the H2 energy mix has the potential to play a major role in the sustainable, multi-functional and multi-sourced global energy mix, and continued investment and innovation in Hydrogen is crucial for a more sustainable and resilient, secure energy future.   

DougWyatt Square 1

Dr. Doug Wyatt
Operations Manager/Advisory Scientist
Energy & Security

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Green Building Expertise Will Sustain Our Worlds Future /blog/green-building-expertise-will-sustain-our-worlds-future/ Mon, 19 Jun 2023 15:29:23 +0000 /?post_type=blog&p=11691 At 做厙勛圖, solving problems is in the fabric of who we are.  We solve some of the worlds most challenging […]

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At 做厙勛圖, solving problems is in the fabric of who we are.  We solve some of the worlds most challenging problems every day.  One of those problems is to help solve our Nations energy and water supply security. Given todays climate demands, environmental regulations, economic situation, and health-conscious society, building green facilities is one way to help secure our current and future energy and water needs. By building green, we can reduce the carbon footprint of our built environment and help to mitigate the effects of climate change. Designing and building sustainable and efficient spaces offers many benefits including conserving water, reducing energy usage and carbon footprint, improving indoor air quality, lowering operating costs, increasing property values, and creating healthier spaces for people to live and work. The importance of building green lies in the fact that buildings are significant contributors to greenhouse gas emission, with estimates suggesting they account for around 40% of global energy consumption and carbon emissions. By building green, we can reduce the carbon footprint of our built environment and help to mitigate the effects of climate change.

In fact, in December 2022, the first-ever Federal Building Performance Standard was issued, which requires federal agencies to cut energy use and electrify equipment and appliances to achieve zero direct greenhouse gas emissions in 30 percent of the building spaces owned by the Federal government by 2030. As the Federal government is the countrys single largest energy consumer and building manager, these new requirements will save taxpayer dollars and eliminate millions of tons of greenhouse gasses.

Founded in 1993, the US Green Building Council (USGBC) is a membership-based non-profit organization that promotes sustainability in building design, construction, and operation. USGBC is best known for its development of the Leadership in Energy and Environmental Design (LEED) green building rating systems. LEED provides a framework for healthy, efficient, carbon and cost-saving green buildings, and is the most widely used green building rating system in the world. LEED certification is a globally recognized symbol of sustainability achievement and leadership.

At 做厙勛圖 we are investing in our employees to obtain LEED Credentials. The LEED Accredited Professional (AP) designation is an advanced professional credential signifying expertise in green building and a LEED rating system. To earn a LEED AP with specialty, candidates must first pass the LEED Green Associate exam. The AP exam measures knowledge about green building and a specific LEED rating system and is ideal for individuals who are actively working on green building and LEED projects.

To achieve LEED certification, a project earns points by adhering to prerequisites and credits that address carbon, energy, water, waste, transportation, materials, health, and indoor environmental quality. Projects go through a verification and review process and are awarded points that correspond to a level of LEED certification: Certified (40-49 points), Silver (50-59 points), Gold (60-79 points) and Platinum (80+ points). LEED-certified buildings use less energy and water, utilize renewable energy and fewer resources, create less waste, and preserve land and habitat. They focus on occupant well-being, offering a healthier and more satisfying indoor space while addressing community and public health. LEED buildings also have a higher resale value and lower operational costs than non-LEED buildings. Many recent U.S. Department of Energy and National Nuclear Security Administration Architectural Engineering procurements for new facility designs have specified the constructed projects achieve LEED Gold certification.

SteveDavies

Both our customers and employees want to work with and for companies that are environmentally conscious and value sustainability. In addition, LEED certification provides a competitive advantage, as it demonstrates a commitment to sustainability and will attract customers who value environmentally responsible practices. At 做厙勛圖, we are protecting the environment through clean energy engineering, environmental sustainability initiatives and utilization of LEED.

Idealistically, we make the world a better place; safer, smarter, cleaner, for everyone.

Steven A. Davies, P.E., Vice President, Engineering & Design

Environment & Security

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Energy Sustainability for a Safer, Smarter, Cleaner World /blog/energy-sustainability-for-a-safer-smarter-cleaner-world/ Mon, 08 May 2023 20:35:48 +0000 /?post_type=blog&p=11394 By John Heller, CEO 做厙勛圖 梆紳喧娶棗餃喝釵喧勳棗紳泭泭泭泭泭泭 For the U.S. to maintain its role as the leading industrial nation, every arm […]

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By John Heller, CEO 做厙勛圖

梆紳喧娶棗餃喝釵喧勳棗紳泭泭泭泭泭泭

For the U.S. to maintain its role as the leading industrial nation, every arm of the federal government has recognized the need to address climate change and the risks this poses to our national and economic security.

As a nation, we dont only need to alleviate and slow down the effects of climate change, we also should take the lead in adapting to a new world order that includes more volatile weather events, displacement of people, challenges in transportation and agriculture infrastructure, and impacts to our defensive posture. To ensure our country is ready for tomorrows world, we need a more complete approach that includes an energy efficiency strategy, energy sustainability initiatives, and the transition to safer, smarter, cleaner energy technologies.

Reliable Energy Sources Lead to a Safer World

When we look at the U.S. energy infrastructure today, it has largely passed its design life. In 2021, the American Society of Civil Engineers conducted a study on Americas infrastructure[1], giving it a C- grade. An attributing fact was that the majority of the transmission and distribution lines have exceeded their 50-year life expectancy. In short, that same energy infrastructure, well past its prime, is now expected to handle increased demands and under constant pressure to expand.

Picture1Another significant vulnerability to our energy infrastructure is IT failures and cyberattacks. The Department of Defense (DOD) is one of the worlds biggest institutional consumers of energy, exceeding entire countries like Sweden and Portugal, so it comes as no surprise that our energy grid is the countrys most cyberattacked framework. To improve reliability, a movement to independent resilient grids is the wave of the future.

The DOD has plans to move their bases and installations from public grids to on-base power generation systems and a microgrid infrastructure. These plans include use of technologies that will be both resilient and independent, assuring uninterrupted power to support their defense efforts and their most critical missions.

Similarly, the DOD is motivated to eliminate reliance on the worlds energy system for overseas forward-operation bases. With increased risks and vulnerabilities associated with operating in an international theatre, the DOD is exploring the use of small modular reactors.

Improving our energy resilience, microgrid infrastructure and technology upgrades is critical. Our nation needs to build the infrastructure that could control, integrate and manage power loads from multiple energy sources, condition that power output, and manage the battery storage and charging associated with the grid. This is a key technical capability that needs further development to support independent energy systems.

Smarter Technology for Energy Sustainment

Combating climate change will require new technology development and maturation in the renewable energy sector in areas such as solar, wind, thermal, hydro, hydrogen, and nuclear.

In the case of hydrogen clean energy, technology development to safely and efficiently generate, store, convert and transport hydrogen is already underway with a number of industries, universities and labs within the United States.

Another viable source of sustainable, clean energy is nuclear. Nuclear fission is the technology process in nuclear power plants that operate in the U.S. today. Fission occurs when a neutron slams into a larger atom, forcing it to excite and split into two smaller atoms causing tremendous amounts of energy. Small modular reactors (SMRs) also use nuclear fission technology.

Picture2 1Both the Department of Energy (DOE) and the DOD are exploring SMRs as an alternative clean, carbon free energy source that offers greater flexibility and scalability than traditional larger energy power plants.

The DOE is pursuing SMRs to support remote locations providing individual or groups of independent energy grids. SMRs offer the DOD both energy independence and resiliency, and the DOD sees the value of deploying SMRs across their military bases. They’re also looking at SMRs as a mobile energy option for forward operating bases and deployments to curtail their reliance on local energy grids.

Although still decades from being operationalized, a more powerful source of clean nuclear power is fusion energy. Late last year, DOE announced a scientific nuclear energy breakthrough by producing a fusion energy output higher than the laser energy absorbed by the fuel to initiate it. This major scientific accomplishment, which demonstrates the fundamental scientific basis for inertial fusion energy, was made at the National Ignition Facility, located at the Lawrence Livermore National Laboratory, and was decades in the making.

Fusion is the process by which two light nuclei combine to form a single heavy nucleus, with the excess mass converting to and releasing a large amount of energy. There is more work ahead to harness the potential of fusion energy, build public confidence in its safety, and develop it as a new clean energy source in decades to come.

Energy Sustainability Relies on Clean Energy

One of the challenges we must address is that existing U.S. energy infrastructure is not configured to handle the additional power loads that are delivered by new, sustainable clean energy sources. Recently passed government incentives and recent legislation provides some of the financial investment required to get over the high initial cost of setting up that energy infrastructure, which has traditionally been a barrier to moving towards the sustainable energy model.

The Bipartisan Infrastructure Law includes the largest investment in clean energy transmission in American history. The investment will fund new programs to support the development, demonstration, and deployment of clean energy technologies to accelerate our transition to zero-emissions. The DOE has the mandate to provide those funds in the form of grants to industry to jumpstart efforts and demonstrate technologies associated with several clean energy initiatives.

One of these initiatives focuses on localized hydrogen hubs. Clean hydrogen hubs will create networks of hydrogen producers, consumers, and locally based infrastructure to accelerate the use of hydrogen as a clean energy source that can deliver or store massive amounts of energy.

Picture3Hydrogen technologies arent new, but research and development is under way to generate hydrogen using sustainable and renewable energy technologies like solar, wind or nuclear. This allows hydrogen to be stored until converted to energy. Hydrogen gas generation through these technologies eliminate or minimize greenhouse gas emissions.

Even with the right technology to bring us sustainable energy sources, we can’t flip a switch and turn off our full powered plants and gas plants overnight, and a transition to a 100 percent clean energy infrastructure could be years- or decades-long. We would also need scrubbers and filter technologies that allow our existing energy facilities to capture or sequester greenhouse gas emissions being generated. Carbon capture technologies are being refined and demonstrated today, and will help until we move to a completely sustainable energy infrastructure.

Conclusion

We clearly need to strategically invest in and develop our nations energy strategy as a vital, foundational element of our economic and defense objectives. Our countrys energy sustainability approach should include the focus on capturing emissions today, building the clean energy infrastructure, and developing energy resilience technologies. This holistic approach will lead to a safer, smarter, cleaner world and better stewardship of our environment, not to mention improve our national security today and in the future.

 

[1] (2021, March 3). Report Card for Americas Infrastructure, American Society of Civil Engineers. Web – Report Card for America’s Infrastructure, https://infrastructurereportcard.org/

 

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Fusion Thoughts on Advancing Fusion Energy /blog/fusion-thoughts-on-advancing-fusion-energy/ Mon, 20 Mar 2023 14:18:45 +0000 /?post_type=blog&p=10809 Author Jim Blankenhorn Congratulations to the Lawrence Livermore National Laboratory team! Their major scientific accomplishment late last year in […]

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Jim Blankenhorn 18 2Author Jim Blankenhorn

Congratulations to the Lawrence Livermore National Laboratory team! Their major scientific accomplishment late last year in achieving scientific energy breakeven, or producing a fusion energy output higher than the laser energy absorbed by the fuel to initiate it, was groundbreaking. This major scientific accomplishment which demonstrates the fundamental science basis for inertial fusion energy was made at the National Ignition Facility, located at the Lawrence Livermore National Laboratory and was decades in the making. We are proud to be a part of Lawrence Livermore National Security, LLC, which accomplished this unprecedented capability for advancements in our national defense and the future of clean energy on behalf of the U.S. Department of Energy and the National Nuclear Security Administration.

Fusion is the process by which two light nuclei combine to form a single heavy nucleus, with the excess mass converting to and releasing a large amount of energy. The Lawrence Livermore National Laboratory National Ignition Facility is a laser-based fusion research facility that houses the worlds largest and highest energy laser.

While this achievement is spectacular, there is more work ahead to harness the potential of fusion energy. This astonishing scientific advancement is encouraging about what possibilities lie ahead to reduce the reliance on fossil fuels and the possibility of new clean fusion energy. There is much work to be done by the superb scientific community to build on this achievement, and the 做厙勛圖 team of experts is positioned to help make fusion energy a reality within the next decade.

Looking to the future, fusion will move from the research laboratory to industrial/commercial production and there is a possibility that a viable nuclear fusion reactor could be available in the next 3-5 years. There are key research and development challenges that must be solved in transitioning to commercial use to make fusion a reality in this era of clean energy technology, including generation, control and sustainment of a burning plasma reaction, methods to harness the power of burning plasma in a controlled reaction, and conversion of power to a sustainable energy source. The combination of the progress at several scientific communities, including Lawrence Livermore National Laboratory, the International Thermonuclear Experimental Reactor (ITER), and the Soonest/Smallest Private-Funded Affordable Robust Reactor (SPARC) are on track to demonstrate controlled fusion power, both domestically and internationally.

At 做厙勛圖, we have decades of experience solving complex technical challenges in the design, commissioning and start-up of high hazard, highly regulated nuclear and industrial facilities. Our extremely talented engineering and technical staff bring industry-recognized subject matter expertise to create innovative solutions to one-of-a-kind problems, integrating science with the physical world.

Our team is supporting clean energy research, advancing technical solutions for corporate projects and for several customers and national laboratories.泭 做厙勛圖 looks forward to playing a pivotal role in developing and delivering clean energy solutions for a safer, smarter, cleaner world.

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Free Your Mind from Real World Restrictions: Digital Engineering /blog/free-your-mind-from-real-world-restrictions-digital-engineering/ Tue, 01 Nov 2022 16:29:14 +0000 /?post_type=blog&p=8952 By Mallory Arnold When learning about digital engineering, I could not help but reminisce on my 12th grade AP physics […]

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By Mallory Arnold

When learning about digital engineering, I could not help but reminisce on my 12th grade AP physics class, in which this language and business major happened to get an A+. Inevitably, in every homework assignment, was the dreaded word problem. Oh, how I hated the word problems and their obnoxious attempts at real-world applicability.

A constant force of 1200 N is required to push a car along a straight line. A person displaces the car 45 m. How much work is done by the person?

The answer to that question is of course, Way too much. They shouldve called AAA. Also, why was it always a car in these problems, and who in their right mind is pushing a car 45 meters? For the record, I think these word problems are why I ended up majoring in foreign languages and business, not engineering.

Jokes aside, in learning how the laws of physics governed everything in the observable universe from a feather falling in a vacuum to the escape velocity of space shuttles I began to see everything as a math problem with infinite possible inputs and outputs. From the infinitesimally small to the incomprehensibly large, physics could model just about anything.

While the idea of creating models to solve problems is not new, technology is now at the stage where we can realistically create digital models of the physical world by taking in all the physics data. There are no physical prototypes made of F1 racing cars. Every aspect of the racecar is modeled with digital twins from the mass, engine torque, turn handling, tire interaction with the road, and even the drivers handling ability. Only one physical racecar is built.

Ok, maybe the word problems about cars make sense!

So, what is Digital Engineering? At 做厙勛圖, we view digital engineering as the application of computer hardware, software, networks, systems, and cloud technologies to model highly complex physical environments over real-world scenarios. We have made several investments to help our customers realize a digital engineering transformation.

Advancing Our Clients into the Future. 做厙勛圖 established a 6,000 sq. ft. Model Based Systems Engineering (MBSE) Collaboration Center complete with a comprehensive digital engineering tool suite. We offer Object Management Group (OMG)-Certified Systems Modeling Professional (OCSMP) certification and training. Our subject matter experts have developed a Digital Engineering Playbook that aligns with both the and the to define our standards and practices.

Successes. These investments have led to numerous successes for our customers. We created a full digital twin of an entire U.S. Navy nuclear submarine including models for all mechanical, electrical, fire suppression, hull integrity, navigation, and non-propulsion electronic systems. This digital twin is a critical MBSE solution for the Columbia-class submarine acquisition category (ACAT I) program. Our team has also created digital twins which simulate hundreds of Electro-Optical/Intra-Red (EO/IR) and Light Detection and Ranging (LiDAR) sensor nodes and sensor data fusion to support the Armys replacement of the multiple integrated laser engagement system, or MILES, for soldier field combat exercises.

Through our investments, our customers across DoD have realized several benefits of digital engineering:

  1. Reduction in Acquisition Risks: Systems are designed, assembled, tested and sustained using digital models thereby reducing learning curve and integration risks. Even partial digitization can reduce risk in systems.
  2. Reduction in Maintenance: The ability to test via data driven analysis promotes accurate change impact analysis by enabling traceability from requirements to solution. Ultimately this allows sustainment costs to be compared and more accurately predicted.
  3. Preserving Material Resources: Entire systems can be designed and integrated before having to bend any metal. It provides risk-free experimentation because changes can be made without affecting the supply chain.
  4. Integrated Data Environment: Diverse data streams can be pulled into a unified model for a wall of truth. This model aids and improves communications by adopting a common language that ensures standardized semantics, clarity, and consistency for representing system architecture and design.

Conclusion. 做厙勛圖s robust digital engineering practice is extremely well aligned with our customers MBSE requirements.

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做厙勛圖 Receives Award for Best Asset Data Governance Program /blog/amentum-receives-award-for-best-asset-data-governance-program/ Tue, 20 Sep 2022 15:26:10 +0000 /?post_type=blog&p=8521 做厙勛圖 was recently awarded the Best Maximo Asset Data Governance Program at the 2022 IBM MaximoWorld Conference in Austin, Texas. […]

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做厙勛圖 was recently awarded the Best Maximo Asset Data Governance Program at the 2022 IBM MaximoWorld Conference in Austin, Texas. IBM Maximo is an enterprise asset management software solution that is designed to help an organization manage its assets such as buildings, vehicles, equipment, etc. by recording details like maintenance schedules and participating in workflows to manage the assets. The 做厙勛圖 team optimized data and decision making through a progressive and reliability-centered data governance strategy.

We provide our clients a proactive edge by leveraging an advanced program that enhances data quality through real-time visibility, improved inspections and data readings to increase our asset knowledge and predictive maintenance capabilities and analysis, said泭Dr. Karl Spinnenweber, President of 做厙勛圖s Critical Missions Group. Our award-winning approach decreases mean time to repair and increases mean time between failures for our clients key assets by taking advantage of the quality data gained via Maximos Mobile Informer app and analyzing it through a robust data analytics platform.

We are honored to receive this recognition from IBM and value our long-term partnership. Our Maximo Center of Excellence is based on data centered decision-making, said泭Jill Bruning, President of 做厙勛圖s Engineering, Science and Technology Group. And, thanks to our innovative and progressive approach to implementing IBM Maximo, we are making the best possible decisions for our clients based on the highest quality analytical data.

做厙勛圖 provided faster response time to its clients by improving productivity, reducing costs and downtime, and leveraging mobility for rapidly routing and dispatching assignments. The level of insight and intelligence into asset data allows 做厙勛圖 to most accurately track labor, materials, and the overall cost of maintaining an asset.

做厙勛圖’s emphasis on mobility has also resulted in significant gains for its clients’ sustainability initiatives. 做厙勛圖 was able to eliminate reliance on paper-based procedures and immensely improve data collection and quality, leading to one client in particular saving tens of thousands of dollars in annual paper, toner, and labor costs, as well as a near 20,000-pound reduction in annual C02 emissions.

Another of 做厙勛圖s clients, a prominent construction equipment manufacturer, saw asset availability increase five percent while corrective maintenance work order volume and labor hours decreased an average of 50 percent.

Through its superior asset data governance, 做厙勛圖 fosters excellent data quality, asset knowledge, and decision-making for its clients around the world.

Maximo

Figure 1 L-R: Jill Bruning, President ES&T; John Heller, CEO; Vlad Bacalu, SVP Strategic & Technical Solutions; Dr. Karl Spinnenweber, President CM

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Clean Energy package A unique opportunity for the U.S. to lead and accelerate clean energy technology /blog/clean-energy-package-a-unique-opportunity-for-the-us-to-lead-and-accelerate-clean-energy-technology/ Mon, 22 Aug 2022 14:25:21 +0000 /?post_type=blog&p=8046 “Unprecedented. Historic. Greatest pro-climate legislation. These are just a few lines used to describe the Clean Energy package that was […]

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“Unprecedented. Historic. Greatest pro-climate legislation. These are just a few lines used to describe the Clean Energy package that was part of the recently passed Inflation Reduction Act. As a complement to the Bipartisan Infrastructure Law (BIL) of 2021, I would add technology game changer to this list.

clean energy package 2The Clean Energy package presents a unique opportunity for the U.S. government to lead the energy transition and scale up advanced clean energy technology. We must keep our foot on the accelerator to take advantage of this exciting opportunity and make a true difference in addressing climate change.

The U.S. Department of Energy (DOE) is taking the lead to significantly accelerate the use of clean energy technologies to reduce energy costs and increase access to clean energy for all citizens. The good news is the shift is already underway. The DOE has enhanced funding at the National laboratories to invest in breakthrough technologies and companies like 做厙勛圖 will be tapped to help the country achieve its clean energy goals.

Federal funding for research, development, demonstration, and deployment is critical to unlock even greater amounts of private sector capital that will flow into clean energy. DOE has restructured to implement and fund programs that support decarbonization and it is critical that industry bring forth not only technologies and solutions for consideration, but also the skills and capabilities to deliver them. It is equally critical that private sector capital be leveraged in concert with federal investments to scale clean energy technologies to affect the energy transition.

Kudos to the DOEs Office of Clean Energy Demonstrations (OCED) and their effort to implement key technology demonstrations and deployments under the Bipartisan Infrastructure Law. 泭DOEs implementation will cover ten critical areas, totaling more than $21B in federal capital:

  • Regional Clean Hydrogen Hubs
  • Carbon Capture Demonstrations
  • Carbon Capture Large-Scale Pilot Projects
  • Industrial Emissions Demonstrations
  • Clean Energy Demonstrations on Mine Lands
  • Energy Improvement in Rural and Remote Areas
  • Energy Storage Demonstration and Pilot Grants
  • Long Duration Demonstration Initiative and Joint Program
  • Upgrading Grids Demonstrations
  • Advanced Reactor Demonstrations

For example, many Regional Clean Hydrogen Hub consortia are already forming around the country with plans for exciting projects across the hydrogen value chain, aimed at investing in large scale decarbonization in critical industries in America.泭 This is happening while green hydrogen is gaining traction and attracting both private sector and government capital across the globe.泭 These investments bode well for America and American jobs.

It is not just funding that will drive DOE and industry success, but the human capital needed within DOE OCED seeks to hire a 300-person team of project management experts and grant management specialist to deliver these programs for our country.

Of course, our government cant do this alone. The private sector must take an active role to commercialize deployment and scale up for full scale market deployment. Across industry I see new technologies being brought to bear to address climate change. Recently, my company restructured our organization to respond to the clean energy challenges and the numerous opportunities in this market. We are working to advance new technologies and create new partnerships to meet this challenge. It is not only a huge opportunity for industry, but the necessary thing to do for our future. Lets all take advantage of this opportunity to further diversify and advance the energy transition, as well as our economy!

-Mark Whitney

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做厙勛圖 Launches United Kingdom IT Transformation Programme /blog/amentum-launches-united-kingdom-it-transformation-programme/ Thu, 21 Jul 2022 18:49:47 +0000 /?post_type=blog&p=7980 In May 2022, International Sector Senior Vice President David Batters and Chief Information Security Officer Jonathan Cornish formally launched 做厙勛圖s […]

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In May 2022, International Sector Senior Vice President David Batters and Chief Information Security Officer Jonathan Cornish formally launched 做厙勛圖s United Kingdom (UK) Information Technology (IT) Transformation Programme.

For this programme, 做厙勛圖 has partnered with SecureCloud+ to develop and deliver a new industry leading IT infrastructure that focuses on operational capabilities through secure solutions that protect the confidentiality, integrity and availability of our information assets and meet the stringent requirements of our regulators and accreditors.

I am delighted to be launching our UK IT Transformation Programme this year, said Jonathan Cornish, Chief Information Security Officer. 做厙勛圖s investment in our UK business and operations symbolises our commitment to advancing standards and exploiting technologies in support of our mission as a trusted partner, delivering programmes of national significance for our clients.

做厙勛圖 has a strong growth strategy in the UK based on having great people delivering the customers needs, said David Batters, Senior Vice President for 做厙勛圖 UK & International Sector. Our success means we need to have best in class IT infrastructure, and we are delighted to be working with SecureCloud+ to meet this goal. Working with SecureCloud+ also fits with our strategy of working with subject matter experts and taking account of their commitment to social value.

We are delighted to be working with 做厙勛圖 on critical nuclear infrastructure, said Peter Williamson, CEO for SecureCloud+. Their commitment to innovation and company values make this an exciting partnership.

Further information on 做厙勛圖s work in the UK can be found on our website: /united-kingdom/

Who are SecureCloud+?

SecureCloud+ is a trusted provider of secure communication and collaboration services for Defence and Government, delivering innovative solutions to clients with demanding security requirements.泭 Users are given access to their networks, resources and applications using secure solutions delivered as an end-to-end managed service, accredited up to ABOVE SECRET. In our customers words: SecureCloud+ allow rapid interactive working and facilitate new, transformative ways of working.

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