"Patience is a Super Power" - "The Money is in the waiting"
Showing posts with label 3d. Show all posts
Showing posts with label 3d. Show all posts

Tuesday, December 17, 2024

AVs, RoboTaxis and robotics all need good Lidar technology. Here we rank five prominent Lidar makers!

 


Here’s the updated analysis and ranking of LiDAR companies, now including Hesai Group, a prominent player in the LiDAR market, alongside Luminar (LAZR), Aeva (AEVA), Innoviz (INVZ), and Ouster (OUST). Hesai's strengths, recent developments, and growing market presence warrant its inclusion.


1. Luminar Technologies (LAZR)

  • Business Prospects: Strong
  • Strengths:
    • Dominates the automotive LiDAR space with partnerships with major automakers like Mercedes-Benz, Volvo, and Nissan.
    • A strong focus on ADAS (Advanced Driver Assistance Systems) and scalability for mass-market vehicles.
    • High visibility in the market and a clear roadmap toward profitability.
  • Financials: Substantial cash reserves and strong investor confidence.
  • Outlook: Luminar remains the leader in automotive-grade LiDAR due to its established partnerships and scalability.

2. Hesai Group (HSAI)

  • Business Prospects: Rapidly Growing
  • Strengths:
    • The largest supplier of LiDAR units by volume, primarily targeting the Chinese market, which is the fastest-growing LiDAR market globally.
    • Hesai has strong partnerships with leading Chinese autonomous vehicle and robotaxi companies, including Nio, Li Auto, and XPeng.
    • Diversified applications in robotics, autonomous trucking, and industrial sectors.
    • Advanced LiDAR products like the AT128 (for ADAS) and Pandora (combining LiDAR and camera).
  • Recent Developments:
    • Successfully completed an IPO in early 2023, raising funds to expand production capabilities and R&D.
    • High-volume manufacturing capability gives it a cost advantage over competitors.
  • Outlook: Hesai's dominance in Asia and its growing global footprint make it a strong contender, second only to Luminar due to its regional focus and lack of significant Western automotive deals.

3. Aeva Technologies (AEVA)

  • Business Prospects: Promising
  • Strengths:
    • Aeva’s FMCW LiDAR technology provides superior performance in poor weather conditions and long-range applications by measuring velocity and distance simultaneously.
    • Strong positioning in autonomous trucking with its partnership with Torc Robotics (Daimler Trucks).
    • Broader applications in critical infrastructure and automotive with partnerships like Volkswagen Group.
  • Weaknesses:
    • Limited adoption compared to Luminar and Hesai in high-volume automotive deals.
    • Financial constraints limit scalability in the short term.
  • Outlook: Aeva’s unique technology makes it a strong player, but it needs broader adoption to challenge Luminar or Hesai.

4. Innoviz Technologies (INVZ)

  • Business Prospects: Strengthening
  • Strengths:
    • Recent partnership with Mobileye, Intel’s autonomous driving unit, significantly boosts its credibility and reach.
    • Existing automotive deals with BMW and Volkswagen for mass-market vehicles.
    • Focus on solid-state LiDAR, ideal for high-performance automotive applications.
  • Weaknesses:
    • Slower to commercialize than its peers and faces financial pressures.
  • Outlook: The Mobileye deal improves Innoviz’s market position, but it still lags behind in terms of adoption and scale.

5. Ouster (OUST)

  • Business Prospects: Mixed
  • Strengths:
    • Significant focus on robotics and non-automotive sectors, including smart infrastructure and industrial automation.
    • Merger with Velodyne in 2023 broadened its product portfolio and market reach.
  • Recent Developments:
    • Targeting new growth channels, including warehouse automation and robotics on a larger scale.
  • Weaknesses:
    • Limited traction in the automotive market and ongoing financial challenges.
  • Outlook: Ouster’s move into robotics adds new growth opportunities but doesn't yet match its peers' automotive success.

Updated Final Ranking of LiDAR Makers

Here’s the revised ranking, considering Hesai Group’s growing dominance:

  1. Luminar Technologies (LAZR)

    • Leading in Western markets with strong automotive partnerships and scalability.
  2. Hesai Group (HSAI)

    • Rapid growth and dominance in China, the largest LiDAR market, with increasing global presence.
  3. Aeva Technologies (AEVA)

    • Technological leader with FMCW LiDAR, strong potential in trucking and critical infrastructure, but slower adoption in automotive.
  4. Innoviz Technologies (INVZ)

    • Mobileye partnership elevates its position but trails in commercialization compared to leaders.
  5. Ouster (OUST)

    • Diversified focus into robotics and industrial sectors but lacks scale in automotive adoption.

Key Takeaways

  • Hesai Group’s dominance in China and its high manufacturing volume put it on par with Luminar in terms of business strength.
  • Aeva’s technological superiority positions it well for specific applications like autonomous trucking and infrastructure but requires broader adoption to move higher in the rankings.
  • Luminar’s market leadership in Western automotive markets remains unmatched.
  • Innoviz and Ouster face challenges in scaling but have opportunities in niche markets.

Wednesday, August 28, 2024

Aeva is expanding its footprint in autos with OEM partnerships. They are also advancing into Robotics and Automation!

 


Founded by two ex-Apple executives who spearheaded Apple's push into sensing technology!

Some of the significant developments include:

  1. Daimler Truck Partnership: Aeva continues to advance its production program with Daimler Truck. This is a major partnership, where Aeva is supplying its 4D LiDAR sensors for Daimler’s next-generation trucks, a deal valued at approximately $1 billion​(Aeva)(MarketScreener).

  2. National Defense Security Organization: Aeva’s 4D LiDAR technology was selected by a top U.S. national defense security organization to help protect critical energy infrastructure, marking an important expansion into the security sector​(Aeva).

  3. New Automotive and Industrial Prospects: Aeva is making significant progress with multiple global top 10 passenger OEMs in the automotive sector and has continued to secure opportunities in industrial applications with companies like Nikon​(Aeva).

These developments indicate strong ongoing demand for Aeva's technology across various sectors, and the company is poised to secure additional contracts throughout 2024.


As of the second quarter of 2024, Aeva Technologies (AEVA) has the following financial position:

  1. Revenue: Aeva reported revenue of $2.0 million for Q2 2024, which is a significant increase from the $0.7 million reported in Q2 2023. For the first half of 2024, the company reported total revenue of $4.12 million, compared to $1.89 million for the same period in 2023​(MarketScreener).

  2. Cash and Cash Equivalents: As of June 30, 2024, Aeva had cash, cash equivalents, and marketable securities totaling $160.2 million. Additionally, the company has access to an available credit facility of $125.0 million​(Aeva).

  3. Operating Loss: The company reported a GAAP operating loss of $48.9 million for Q2 2024, compared to a GAAP operating loss of $38.2 million in Q2 2023. The non-GAAP operating loss for Q2 2024 was $32.0 million, slightly higher than the $31.1 million loss reported in the previous year​(Aeva).

  4. Net Loss: Aeva’s GAAP net loss for Q2 2024 was $43.39 million, with a loss per share of $0.82, consistent with the previous year. For the first six months of 2024, the net loss amounted to $78.72 million​(MarketScreener).

  5. Market Performance: As of the latest updates, Aeva's stock price was trading at around $4.09 per share, with a market capitalization of approximately $215.81 million. The company has a 52-week trading range between $2.33 and $7.60​(Yahoo Finance Canada).

Overall, while Aeva has made progress in increasing its revenue and securing significant contracts, it continues to operate at a loss. However, the company has a strong cash position and access to additional capital, which provides a buffer as it continues to develop its technology and expand its market reach.

Aeva Technologies is actively pursuing several key business developments and partnerships as part of its growth strategy for 2024 and beyond:

  1. Automotive Sector Expansion: Aeva is working to expand its footprint within the automotive industry, particularly with multiple global top 10 passenger OEMs. The company is striving to have its 4D LiDAR technology adopted by more automotive manufacturers, building on its existing partnership with Daimler Truck. This expansion is aimed at securing more production programs and scaling its technology across a broader range of vehicles​(Aeva).

  2. Industrial Applications: Aeva has partnered with Nikon in the industrial sector, focusing on integrating its LiDAR technology into industrial automation and robotics. The company sees significant potential in this area and is looking to further develop partnerships that could lead to more widespread adoption of its technology in various industrial applications​(Aeva).

  3. Security and Infrastructure: Aeva recently made strides into the security sector by partnering with a top U.S. national defense security organization. This partnership focuses on using Aeva’s 4D LiDAR to protect critical energy infrastructure. The company is likely to pursue additional contracts within the defense and critical infrastructure sectors​(Aeva).

  4. Geographical Expansion: Aeva is also expanding its presence in Europe with the establishment of a new Automotive Center of Excellence in Germany. This move is part of a broader strategy to increase its global reach and support its automotive and industrial partnerships across Europe​(Aeva).

  5. Diversified Applications: Beyond its current focus areas, Aeva is exploring opportunities in other sectors such as consumer electronics, health, and smart infrastructure. The company believes that its FMCW (Frequency Modulated Continuous Wave) LiDAR technology has broad applicability, and it is aiming to secure partnerships in these emerging areas​(Aeva).

Aeva's "4D" LiDAR is a significant advancement over traditional 3D LiDAR technology, offering several key advantages that enhance its effectiveness, particularly in autonomous driving, robotics, and industrial applications. 

Here’s how Aeva’s 4D LiDAR improves upon 3D LiDAR:

1. Velocity Detection

  • 4D LiDAR: Aeva’s 4D LiDAR incorporates an additional dimension by directly measuring the instant velocity of objects along with their 3D position. This capability is enabled by Aeva's use of Frequency Modulated Continuous Wave (FMCW) technology, which allows the sensor to detect the speed at which objects are moving relative to the sensor. This is crucial for applications like autonomous driving, where understanding not just where an object is, but how fast it’s moving, can significantly improve safety and decision-making.
  • 3D LiDAR: Traditional 3D LiDAR systems measure only the spatial position (x, y, z coordinates) of objects and lack the ability to directly detect the velocity of moving objects. Velocity information in 3D LiDAR systems must typically be inferred from multiple frames, which can introduce errors and latency.

2. Improved Perception in Complex Environments

  • 4D LiDAR: The ability to detect velocity in addition to position allows Aeva’s 4D LiDAR to better distinguish between stationary and moving objects, even in cluttered or dynamic environments. This can reduce false positives and improve object tracking, leading to more accurate perception and safer autonomous navigation.
  • 3D LiDAR: In complex environments, 3D LiDAR can struggle to accurately track objects, especially when multiple objects are close together or when objects move quickly. The lack of direct velocity information can lead to challenges in differentiating between objects and understanding their movement.

3. Longer Range and Higher Resolution

  • 4D LiDAR: Aeva’s 4D LiDAR offers longer detection ranges and higher resolution, which are critical for early detection and classification of objects in the environment. This is particularly important for high-speed applications like autonomous driving, where quick response times are essential.
  • 3D LiDAR: While 3D LiDAR systems can offer high resolution, they typically have a shorter range and are less effective at detecting small or distant objects with the same accuracy as 4D LiDAR.

4. Immunity to Interference

  • 4D LiDAR: Aeva’s FMCW-based 4D LiDAR is inherently immune to interference from other LiDAR systems and environmental factors such as bright sunlight. This makes it more reliable in real-world conditions, where multiple sensors might operate simultaneously, or where the environment could otherwise degrade sensor performance.
  • 3D LiDAR: 3D LiDAR systems using Time-of-Flight (ToF) technology can be susceptible to interference from other LiDAR units and external light sources, which can compromise data accuracy and reliability.

5. Lower Power Consumption

  • 4D LiDAR: The design of Aeva’s 4D LiDAR allows for lower power consumption compared to traditional LiDAR systems. This is particularly advantageous in applications like autonomous vehicles, where energy efficiency is critical for extending operational range and reducing overall power demands.
  • 3D LiDAR: Traditional 3D LiDAR systems typically consume more power, which can be a limiting factor in battery-powered applications.

In summary, Aeva’s 4D LiDAR provides a more comprehensive and accurate perception system by directly measuring velocity, offering better performance in complex environments, and delivering enhanced range, resolution, and reliability compared to traditional 3D LiDAR systems. These advancements make 4D LiDAR particularly well-suited for advanced applications in autonomous vehicles, robotics, and other areas requiring precise and reliable perception technology​(Aeva)


Aeva's LiDAR technology is particularly suitable and, in many cases, preferable for robotics and automation due to several key features that align well with the needs of these applications:

1. High-Precision Velocity Measurement

  • Relevance to Robotics: In robotics, precise and real-time understanding of an object's speed is crucial for tasks like navigation, obstacle avoidance, and manipulation. Aeva’s 4D LiDAR uniquely measures the instant velocity of objects directly, enabling robots to make faster and more accurate decisions in dynamic environments. This feature reduces latency and improves the safety and effectiveness of robotic systems.
  • Comparison to Traditional LiDAR: Traditional 3D LiDAR systems lack direct velocity measurement, which means that robots must rely on data from multiple frames to estimate velocity, leading to potential errors and slower response times.

2. Improved Perception in Complex Environments

  • Relevance to Automation: Automation systems often operate in environments where multiple objects move simultaneously, such as in manufacturing floors or warehouses. Aeva’s LiDAR can differentiate between moving and stationary objects more accurately due to its 4D capabilities, reducing the risk of collisions and improving efficiency.
  • Comparison to Traditional LiDAR: Traditional 3D LiDAR can struggle to distinguish between closely spaced or fast-moving objects, leading to less reliable data and potential operational slowdowns or errors in automated systems.

3. Longer Range and High Resolution

  • Relevance to Robotics and Automation: Many automated systems require sensors that can detect objects at longer distances with high accuracy to ensure timely responses, especially in large or complex environments like industrial automation or outdoor robotics. Aeva’s LiDAR offers superior range and resolution, which helps in detecting smaller objects or objects at a distance, ensuring better performance in various automation tasks.
  • Comparison to Traditional LiDAR: While traditional LiDAR systems provide good resolution, their shorter range can be a limitation in environments where long-range detection is necessary.

4. Immunity to Interference

  • Relevance to Robotics and Automation: In industrial settings or areas with multiple sensors, interference from other LiDAR systems or environmental factors like sunlight can degrade performance. Aeva’s FMCW-based LiDAR is immune to such interference, ensuring consistent and reliable operation in these environments.
  • Comparison to Traditional LiDAR: Traditional LiDAR systems using Time-of-Flight technology can be more susceptible to interference, which might result in inaccurate readings or the need for more complex data filtering.

5. Lower Power Consumption

  • Relevance to Robotics: Many robotic systems, especially mobile ones, have limited power resources. Aeva’s LiDAR technology is designed to consume less power, making it ideal for battery-operated robots or drones where energy efficiency is critical.
  • Comparison to Traditional LiDAR: Traditional LiDAR systems typically consume more power, which can limit their suitability for certain applications, particularly in mobile or remote systems.

6. Versatility Across Applications

  • Relevance to Robotics and Automation: Aeva's 4D LiDAR is designed to be versatile, making it applicable across a range of automation tasks, from autonomous vehicles to industrial robots and even drones. This adaptability makes it a strong candidate for deployment in various automated systems, providing a unified sensing solution across different platforms.
  • Comparison to Traditional LiDAR: While 3D LiDAR is effective in many applications, the additional capabilities of Aeva’s 4D LiDAR make it a more comprehensive and versatile option, especially in scenarios that demand high precision and robustness.

In summary, Aeva’s 4D LiDAR technology offers several advantages that make it particularly well-suited for robotics and automation, including precise velocity measurement, improved perception, longer range, immunity to interference, and lower power consumption. These features not only enhance the performance of robotic and automated systems but also expand the potential applications of these systems in more challenging environments​(Aeva) (Yahoo Finance Canada).

Overall, Aeva is pursuing a multi-faceted growth strategy that includes deepening existing partnerships, expanding into new markets, and diversifying the applications of its 4D LiDAR technology across different industries including automation and robotics.

Related Articles:

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Wednesday, July 3, 2024

A comparison of two leading Lidar technologies - AEVA vs LAZR as the use of Lidar becomes more and more integrated into robotics!

 


Aeva Technologies (AEVA) and Luminar Technologies (LAZR) a Comparison

Aeva Technologies (AEVA)

Key Features:

  1. 4D LiDAR on Chip:

    • Aeva's technology integrates all key components, such as transmitters and receivers, onto a silicon photonics chip. This results in a compact module that is easier to manufacture at scale​ (AEVA)​​ (AEVA)​.
  2. Instant Velocity Detection:

    • Aeva’s LiDAR can measure the instant velocity of every point on objects beyond 300 meters, providing detailed and precise data​ (AEVA)​.
  3. Interference Immunity:

    • Their 4D LiDAR is immune to interference from other sensors and sunlight, and it can see through challenging conditions like dust, fog, rain, and snow​ (AEVA)​​ (AEVA)​.
  4. Automotive Grade:

    • Aeva’s LiDAR meets stringent automotive standards, including ISO-26262 for functional safety and ISO-21434 for automotive cybersecurity​ (AEVA)​.
  5. Advanced Applications:

    • Their sensors are used in various applications, including autonomous driving, industrial automation, smart infrastructure, and consumer electronics​ (AEVA)​.

Luminar Technologies (LAZR)

Key Features:

  1. High-Resolution 3D Perception:

    • Luminar’s LiDAR provides high-resolution 3D perception up to 250 meters, crucial for autonomous driving and advanced driver-assistance systems (ADAS)​ (AEVA)​​ (AEVA)​.
  2. Cost and Efficiency:

    • Luminar has focused on reducing the cost and improving the efficiency of their LiDAR systems to make them viable for mass-market adoption in the automotive industry​ (AEVA)​.
  3. Integration and Partnerships:

    • Luminar has established significant partnerships with major automotive manufacturers like Volvo and Daimler, aiming to integrate their LiDAR into production vehicles​ (AEVA)​​ (AEVA)​.
  4. Performance in Challenging Conditions:

    • Their technology is designed to perform well in various environmental conditions, maintaining accuracy and reliability in scenarios such as bright sunlight and adverse weather​ (AEVA)​.

Comparison

Technology Approach:

  • Aeva uses a unique Frequency Modulated Continuous Wave (FMCW) approach that enables the measurement of instant velocity and is integrated onto a chip for scalability and cost-efficiency​ (AEVA)​​ (AEVA)​.
  • Luminar focuses on providing high-resolution 3D perception and has been actively reducing costs to facilitate widespread adoption in the automotive market​ (AEVA)​.

Applications and Partnerships:

  • Aeva’s technology is versatile, catering to a broad range of applications beyond automotive, including industrial robotics and consumer electronics​ (AEVA)​.
  • Luminar has strong automotive industry partnerships and focuses primarily on enhancing autonomous driving and ADAS technologies​ (AEVA)​​ (AEVA)​.

Performance:

  • Both companies emphasize performance in challenging conditions, but Aeva's 4D LiDAR offers unique features like freedom from interference and the ability to see through environmental obscurants​ (AEVA)​​ (AEVA)​.
  • Luminar ensures high-resolution perception and robustness in bright sunlight and adverse weather, making it suitable for critical automotive applications​ (AEVA)​.

In summary, Aeva and Luminar each bring unique strengths to LiDAR technology, with Aeva focusing on versatile, interference-free 4D perception and Luminar on high-resolution 3D perception and cost-effective integration for the automotive industry.

...

Best for Autonomous Vehicles: Aeva Technologies (AEVA)

Reasons:

  1. Instant Velocity Detection:

    • Aeva’s 4D LiDAR technology uniquely measures the instant velocity of objects, providing more precise data for autonomous driving systems to make safer and more informed decisions​ (AEVA)​​ (AEVA)​.
  2. Interference Immunity:

    • Aeva’s sensors are immune to interference from other LiDAR systems and sunlight, ensuring reliable performance even in complex driving environments where multiple vehicles might be using LiDAR​ (AEVA)​​ (AEVA)​.
  3. Automotive Partnerships:

    • Aeva has significant endorsements and investments from major automotive manufacturers like Porsche SE and Volkswagen Group, indicating strong confidence in their technology for future autonomous vehicle deployments​ (AEVA)​.
  4. Automotive Grade Standards:

    • The technology meets automotive-grade reliability and safety standards, including ISO-26262 for functional safety and ISO-21434 for cybersecurity, ensuring it can handle the rigorous demands of autonomous vehicle operations​ (AEVA)

  • Note: Colin Rusch of Oppenheimer (5 star rating) currently has a price target of $25 for AEVA's stock. Today's price is $2.28

Best for Robotics: Luminar Technologies (LAZR)

Reasons:

  1. High-Resolution 3D Perception:

    • Luminar’s LiDAR provides high-resolution 3D perception, essential for robotic applications that require detailed environmental mapping and object detection to navigate and interact with their surroundings effectively​ (AEVA)​​ (AEVA)​.
  2. Cost and Efficiency:

    • Luminar’s focus on reducing costs while maintaining high performance makes their LiDAR solutions more accessible for a wide range of robotic applications, from industrial automation to consumer robotics​ (AEVA)​.
  3. Performance in Challenging Conditions:

    • Their technology’s ability to perform accurately in various environmental conditions, including bright sunlight and adverse weather, ensures that robots can operate reliably in diverse settings​ (AEVA)​.
  4. Versatile Integration:

    • The ease of integrating Luminar’s LiDAR with different robotic platforms due to its high-resolution and adaptable nature makes it suitable for various robotics applications, from indoor warehouse robots to outdoor autonomous drones​ (AEVA)​​ (AEVA)​.

Note: Tesla recently purchased 2,000 lidar units from LAZR Technologies

(Could this be a first order for Tesla's new humanoid robot "Optimus?)

Image by ChatGPT DALL E-3



In summary, Aeva Technologies’ advanced features and automotive-grade reliability make it ideal for autonomous vehicles



while Luminar Technologies’ high-resolution perception and cost efficiency are better suited for diverse robotics applications.



Here's why institutional investors are investing in AEVA Technologies at this time and who currently owns the stock!

Pure plays in the race for Quantum Computing technology, IONQ, Quantinuum and D-wave technologies - comparisons!




Monday, June 29, 2015

Graphene 3D Lab Announces Distribution/Manufacturing Partnership with Polymaker

Today June 29th 2015
TSX-V: GGG, OTCQB: GPHBF
Graphene 3D Lab Inc. (TSX-V: GGG, OTCQB: GPHBF) ("Graphene 3D") is pleased to announce a distribution and manufacturing partnership with Polymaker.

Under the terms of the agreement, Polymaker (www.polymaker.com) will distribute all Graphene 3D manufactured specialty and functional filaments and provide filament manufacturing services on an as required basis. Polymaker's manufacturing operation is located in Suzhou, China, and the company operates sales and distribution offices in Shanghai, China, New York, USA, Utrecht, Netherlands, and Tokyo, Japan.

Graphene 3D's on-line filament store, www.blackmagic3d.com, will carry unique Polymaker filaments, including PolyMax(TM) PLA, PolyFlex(TM), and PolyWood(TM). Both companies plan to start offering each other's products on their respective on-line stores in July. The agreement also includes provisions for Graphene 3D and Polymaker to collaborate on the development of an expanded line of graphene filaments. 

Graphene 3D CEO Dr. Daniel Stolyarov commented, "This partnership with Polymaker is an important step for Graphene 3D on several fronts; Polymaker's distribution network will expose our filaments to customers outside of North America, and our contract manufacturing agreement provides us with a high quality manufacturing alternative to supplement our in-house extrusion facility. Polymaker's existing specialty filament products also align well with our functional filaments, and we look forward to including them with our offerings."

"Polymaker's customers tend to push the boundaries of 3D printing and are always looking for the
next innovation to use in their 3D printing projects. The Graphene 3D functional filaments are a natural complement for our customers and for our existing filaments," added Polymaker President, Dr. Xiaofan Luo.

About Graphene 3D
Graphene 3D Lab is in the business of developing, manufacturing, and marketing proprietary graphene-based nanocomposite materials for various types of 3D printing, including fused filament fabrication. The Company is also involved in the design, manufacture, and marketing of 3D printers and related products for domestic and international customers. The Graphene 3D Lab facility is located in Calverton, NY and is equipped with material processing and analytical equipment. The company has four US patent applications pending for its technology. For more information on Graphene 3D Lab Inc., visit www.graphene3dlab.com.

About Polymaker
Polymaker is a company committed to innovation, quality and sustainability, in the pursuit of producing high-quality materials for the 3D printing industry. Headquartered in Shanghai, China, Polymaker now has global offices in the USA, Netherlands and Japan. With their state-of-the-art manufacturing centre and market leading quality control processes, Polymaker's filaments are not only ensured to have the best quality standards but also provide innovative properties. Whether it is with their increased mechanical strength, unparalleled Jam-FreeTM printing or world's first, 3D printable foam based filament, Polymaker will continue to bring new performance enhanced materials to the 3D printing community.

FORWARD LOOKING INFORMATION
This news release contains "forward-looking information" within the meaning of applicable securities laws. Forward-looking information in this news release includes statements about collaboration and material sales between Graphene 3D Lab and Polymaker.
In connection with the forward-looking information contained in this news release, the Company has made numerous assumptions, regarding, among other things, purchases to be made by Polymaker for Graphene 3D materials and collaboration to take place between Graphene 3D and Polymaker. While the Company considers these assumptions to be reasonable, these assumptions are inherently subject to significant uncertainties and contingencies.
Additionally, there are known and unknown risk factors which could cause the Company's actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking information contained herein. Known risk factors include, among others: incompatibility of the technologies owned by Graphene 3D and Polymaker; either party, for any reason, choosing not to move forward in joint collaboration or sales of materials.
A more complete discussion of the risks and uncertainties facing the Company is disclosed in the Company's continuous disclosure filings with Canadian securities regulatory authorities at www.sedar.com. All forward-looking information herein is qualified in its entirety by this cautionary statement, and the Company disclaims any obligation to revise or update any such forward-looking information or to publicly announce the result of any revisions to any of the forward-looking information contained herein to reflect future results, events or developments, except as required by law.
THE FORWARD-LOOKING INFORMATION CONTAINED IN THIS PRESS RELEASE REPRESENTS THE EXPECTATIONS OF THE COMPANY AS OF THE DATE OF THIS PRESS RELEASE AND, ACCORDINGLY, IS SUBJECT TO CHANGE AFTER SUCH DATE. READERS SHOULD NOT PLACE UNDUE IMPORTANCE ON FORWARD-LOOKING INFORMATION AND SHOULD NOT RELY UPON THIS INFORMATION AS OF ANY OTHER DATE. WHILE THE COMPANY MAY ELECT TO, IT DOES NOT UNDERTAKE TO UPDATE THIS INFORMATION AT ANY PARTICULAR TIME EXCEPT AS REQUIRED IN ACCORDANCE WITH APPLICABLE LAWS.
NEITHER TSX VENTURE EXCHANGE NOR ITS REGULATION SERVICES PROVIDER (AS THAT TERM IS DEFINED IN POLICIES OF THE TSX VENTURE EXCHANGE) ACCEPTS RESPONSIBILITY FOR THE ADEQUACY OR ACCURACY OF THIS RELEASE.


SOURCE: Graphene 3D Lab Inc.
Commercial Inquiries: Daniel Stolyarov, President & Chief Executive Officer,
Telephone: (631) 405-5116, Email: daniel.stolyarov@graphene3dlab.com; Investor
Inquiries: Investor Relations, Telephone (631) 405-5114, Email:
investors@graphene3dlab.com; Media Inquiries: Kristie Galvani, Rubenstein Public
Relations, Telephone: (212) 843-9205, Email: KGalvani@rubensteinpr.com

Friday, June 19, 2015

Graphene 3D Labs and partner Ideum to build smart walls

Graphene 3D Lab and Ideum Collaborate on Product Development
  Thursday Jun 18, 2015
  Graphene 3D Lab Inc. (TSXV: GGG, OTCQB: GPHBF) ("Graphene 3D") and Ideum, a company which develops large-scale smart-tables and walls, are pleased to announce the signing of a Memorandum of Understanding ("MoU") which lays the foundation for joint research, product development, and marketing between the two companies.

Graphene 3D and Ideum will consider and co-develop products by Graphene 3D which can be used as capacitive sensors to interface with Ideum's product offerings. Graphene 3D will also begin commercial on-demand 3D printing of coasters, joysticks, and styluses which Ideum clients can use to interact with their smart-tables. For example, styluses of various shapes, 3D printed in Conductive Graphene Filament, may be used as brushes used in photo editing software, giving a more hands-on feel to creative work done on an Ideum smart-table.

The agreement also calls for both parties to jointly produce a whitepaper on any research findings. All jointly-developed products will be promoted through Ideum sales channels, and Graphene 3D will partner with Ideum in various marketing activities, including participation in forums and trade shows.

Graphene 3D CEO Dr. Daniel Stolyarov commented, "Partnering with Ideum is the perfect opportunity for Graphene 3D to showcase its ability to address various market needs with rapid prototyping of functional objects. Using Conductive Graphene Filament, our team can manufacture an endless number of unique, custom objects which bring additional functionality to Ideum smart-tables for consumers."

"Our clients are always looking for new ways to interact with Ideum multitouch tables in a variety of different settings and markets" added Ideum's CEO, Jim Spadaccini. "Conductive 3D printed objects of unique shapes can greatly extend the functionality of our touch tables as we can now assign a different purpose to each tangible object, giving users a much higher degree of control over their devices."

A video of a stylus being used on an Ideum smart-table can be seen by following this link;

About Graphene 3D
Graphene 3D is in the business of developing, manufacturing, and marketing proprietary graphene-based nanocomposite materials for various types of 3D printing, including fused filament fabrication. The Company is also involved in the design, manufacture, and marketing of 3D printers and related products for domestic and international customers.

The Graphene 3D facility is located in Calverton, NY and is equipped with material processing and analytical equipment. The company has four US patent applications pending for its technology. For more information on Graphene 3D Lab Inc., visit Graphene3Dlab.com 
 
About Ideum
Ideum (www.ideum.com) is a privately-held creative company based in Corrales, New Mexico. Ideum designs and produces integrated and hardened large-scale multitouch hardware and develops interactive software for museums, educational institutions, government agencies, and Fortune 500 companies. The company has developed and sells Gestureworks (www.gestureworks.com), a cutting-edge multitouch and motion tracking software environment.

FORWARD LOOKING INFORMATIONThis news release contains "forward-looking information" within the meaning of applicable securities laws. Forward-looking information in this news release includes statements about collaboration and material sales between Graphene 3D Lab and Ideum.
In connection with the forward-looking information contained in this news release, the Company has made numerous assumptions, regarding, among other things, purchases to be made by Ideum for Graphene 3D materials and collaboration to take place between Graphene 3D and Ideum. While the Company considers these assumptions to be reasonable, these assumptions are inherently subject to significant uncertainties and contingencies.
Additionally, there are known and unknown risk factors which could cause the Company's actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking information contained herein. Known risk factors include, among others: incompatibility of the technologies owned by Graphene 3D and Ideum; either party, for any reason, choosing not to move forward in joint collaboration or sales of materials.
A more complete discussion of the risks and uncertainties facing the Company is disclosed in the Company's continuous disclosure filings with Canadian securities regulatory authorities at www.sedar.com. All forward-looking information herein is qualified in its entirety by this cautionary statement, and the Company disclaims any obligation to revise or update any such forward-looking information or to publicly announce the result of any revisions to any of the forward-looking information contained herein to reflect future results, events or developments, except as required by law.
THE FORWARD-LOOKING INFORMATION CONTAINED IN THIS PRESS RELEASE REPRESENTS THE EXPECTATIONS OF THE COMPANY AS OF THE DATE OF THIS PRESS RELEASE AND, ACCORDINGLY, IS SUBJECT TO CHANGE AFTER SUCH DATE. READERS SHOULD NOT PLACE UNDUE IMPORTANCE ON FORWARD-LOOKING INFORMATION AND SHOULD NOT RELY UPON THIS INFORMATION AS OF ANY OTHER DATE. WHILE THE COMPANY MAY ELECT TO, IT DOES NOT UNDERTAKE TO UPDATE THIS INFORMATION AT ANY PARTICULAR TIME EXCEPT AS REQUIRED IN ACCORDANCE WITH APPLICABLE LAWS.
NEITHER TSX VENTURE EXCHANGE NOR ITS REGULATION SERVICES PROVIDER (AS THAT TERM IS DEFINED IN POLICIES OF THE TSX VENTURE EXCHANGE) ACCEPTS RESPONSIBILITY FOR THE ADEQUACY OR ACCURACY OF THIS RELEASE.
SOURCE Graphene 3D Lab Inc.

SOURCE: Graphene 3D Lab Inc.
Commercial Inquiries: Daniel Stolyarov, President & Chief Executive Officer,
Telephone: (631) 405-5116, Email: daniel.stolyarov@graphene3dlab.com; Investor
Inquiries: Investor Relations, Telephone (631) 405-5114, Email:
investors@graphene3dlab.com; Media Inquiries: Kristie Galvani, Rubenstein Public
Relations, Telephone: (212) 843-9205, Email: KGalvani@rubensteinpr.com

Friday, August 15, 2014

Lomiko Metals now owns big chunk of Graphene 3D Labs

2014 Aug 15

Marketwire

Lomiko Metals is now the Beneficial Owner of 4,396,970 Shares of Graphene 3D Lab TSXV: GGG

LOMIKO METALS INC. (TSX VENTURE: LMR)
(PINKSHEETS: LMRMF)(FRANKFURT: DH8B) (Europe: ISIN: CA54163Q1028, WKN: A0Q9W7) (the "Company")
 announces it has received approval from the TSX Venture Exchange to the acquisition of 1,200,000 common shares at $0.25 per share of MatNic Resources Inc. The transaction was subject to MatNic Resources Inc. receiving regulatory approval to a reverse takeover ("RTO") by Graphene 3D Labs Inc. ("Graphene 3D") (TSX VENTURE: GGG) (formerly named MatNic Resources Inc.).

The transaction is now complete and the Company now holds 4,396,970 common shares in the capital of Graphene 3D representing approximately 11.23% of the outstanding Shares of Graphene 3D. Of these shares, 3,196,970 were acquired at a deemed price of $0.075 pursuant to pursuant to a securities exchange agreement (the "Securities Exchange Agreement") dated June 6, 2014 between, among others, Graphene 3D and Lomiko.

3,196,970 of the Shares held by Lomiko are subject to the terms of a Surplus Security Escrow Agreement, in accordance with the Policies of the TSX Venture Exchange. Pursuant to the terms of the Tier 2 Surplus Escrow Agreement, 5% of the Shares will be released from escrow upon the issuance of the TSX Venture Exchange bulletin announcing final approval of the listing of the Shares, and respectively 5%, 10%, 10%, 15%, 15% and 40% will be released on each of the dates that is 6 months, 12 months, 18 months, 24 months, 30 months and 36 months from the date of the TSX Venture Exchange bulletin.

Lomiko acquired the Shares for investment purposes and does not intend to acquire additional Shares in the future.

The acquisition of Shares was exempt under National Instrument 45-106 Prospectus and Registration Exemptions.

LOMIKO METALS INC. Background

Lomiko Metals Inc. is a Canada-based, exploration-stage company. The Company is engaged in the acquisition, exploration and development of resource properties that contain minerals for the new green economy. Its mineral properties include the Quatre Milles Graphite Property and the Vines Lake property which both have had recent major discoveries. Recently, Lomiko Metals formed Lomiko Technologies, a 100% owned subsidiary focused on technological applications of graphite and graphene.
On Behalf of the Board

A. Paul Gill, Chief Executive Officer
We seek safe harbor. Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.
Contacts:
Lomiko Metals Inc.
A. Paul Gill
604-729-5312
info@lomiko.com
www.lomiko.com


SOURCE: Lomiko Metals Inc.