Maris-Tech Announces a Development Milestone in Quantum Navigation Technology for Autonomous Defense Systems

Rhea-AI Summary

Maris-Tech (Nasdaq: MTEK) announced a development milestone in collaboration with Quantum Gyro to integrate a quantum-based NMR gyroscope into a hybrid navigation system for autonomous defense platforms. Quantum Gyro entered an exclusive license with Quantum X Labs and is assignee of U.S. Provisional Patent Application No. 64/000,184 filed March 9, 2026.

The joint architecture targets bias drift below 0.01 degrees per hour and aims to combine Maris-Tech's edge AI processing with quantum inertial sensing to provide resilient navigation alternatives or complements to GPS for UAVs operating in GPS-denied environments.

Key Figures

Patent application number: 64/000,184 Patent filing date: March 9, 2026 Target bias drift: 0.01 degrees per hour

3 metrics

Patent application number 64/000,184 U.S. Provisional Patent Application for NMR gyroscope technology

Patent filing date March 9, 2026 Filing date of U.S. Provisional Patent Application No. 64/000,184

Target bias drift 0.01 degrees per hour Design target for quantum-based gyroscope bias drift

Market Reality Check

Price: $0.2100 Vol: Volume 6,266 is below 20-...

low vol

$0.2100 Last Close

Volume Volume 6,266 is below 20-day average 13,433 (relative volume 0.47). low

Technical Trading below 200-day MA of 0.24, at 0.22, and 79.63% under 52-week high 1.08.

Peers on Argus

Warrant MTEKW fell 24.14% while peers DAIO and MTEK showed upward momentum in th...

2 Up

Warrant MTEKW fell 24.14% while peers DAIO and MTEK showed upward momentum in the scanner with gains of 9.74% and 8.67%. Broader peers had mixed, mostly smaller moves, indicating the drop in the warrant is more instrument-specific than a clear sector rotation.

Historical Context

5 past events · Latest: Mar 16 (Positive)

Pattern 5 events

Date	Event	Sentiment	Move	Catalyst
Mar 16	Defense order win	Positive	+21.3%	Governmental defense entity ordered Diamond Ultra and Jupiter platforms.
Mar 06	Equity financing	Negative	-20.3%	Registered direct offering of 1,605,136 shares for gross proceeds of $2.0M.
Mar 05	Production order	Positive	+42.9%	First substantial production order for Jupiter Drone edge video systems.
Feb 19	Production order	Positive	+0.0%	First substantial production order for Jupiter Drone from new defense customer.
Feb 12	Pilot contract win	Positive	+2.6%	Pilot contract to integrate AI situational awareness in U.S. fighting vehicle.

Pattern Detected

Operational defense wins have recently aligned with strong positive price moves, while the capital raise drew a sharp negative reaction.

Recent Company History

Over the past months, Maris-Tech reported multiple defense-related contract wins and a financing. On Feb 12, a U.S. pilot contract for infantry fighting vehicles saw a 2.56% move. Subsequent substantial production orders on Feb 19 and Mar 5 produced reactions of 0% and 42.86%, respectively. A governmental defense order on Mar 16 led to a 21.34% gain. In contrast, the $2.0M registered direct offering announced on Mar 6 was followed by a -20.33% decline, highlighting sensitivity to dilution events.

Market Pulse Summary

This announcement highlights a milestone in integrating quantum gyroscope technology with Maris-Tech...

Analysis

This announcement highlights a milestone in integrating quantum gyroscope technology with Maris-Tech’s edge AI processing for resilient navigation in GPS-challenged environments. The collaboration targets bias drift below 0.01 degrees per hour and is supported by a U.S. provisional patent filing dated March 9, 2026. Set against recent defense contract wins and a March 2026 capital raise, investors may track future contracts, integration milestones, and commercialization steps for this quantum-based architecture.

Key Terms

nuclear magnetic resonance, nmr, gyroscope, larmor frequency, +4 more

8 terms

nuclear magnetic resonance medical

"relating to an advanced nuclear magnetic resonance (“NMR”) gyroscope technology"

A laboratory technique that uses strong magnets and radio waves to reveal the arrangement of atoms inside a molecule—think of it as an MRI for chemicals that lets scientists ‘see’ molecular structure and purity. Investors care because nuclear magnetic resonance (NMR) is a foundational tool in drug discovery, materials research and quality control: robust NMR data can validate a product’s composition, speed development, reduce regulatory risk and protect the value of intellectual property.

nmr medical

"relating to an advanced nuclear magnetic resonance (“NMR”) gyroscope technology"

NMR (nuclear magnetic resonance) is a laboratory technique that uses magnetic fields to reveal the detailed structure and composition of molecules, much like how an MRI shows images inside the body. Investors care because NMR data underpins claims about a drug’s makeup, purity, or how a molecule binds to its target, so it affects the strength of research results, regulatory filings, and product quality assurances.

gyroscope technical

"quantum-based gyroscope technology for navigation and global positioning system"

A gyroscope is a device that senses or maintains orientation and rotation by using a spinning mass or equivalent electronic sensor, like a tiny spinning top that resists changes in direction. Investors care because gyroscopes are key components in many products—smartphones, drones, vehicles, aircraft and industrial equipment—so advances, supply issues or cost changes can affect product performance, market demand and the financial prospects of companies that make or use them.

larmor frequency technical

"measures rotation by detecting shifts in the Larmor frequency of nuclear magnetic moments"

The Larmor frequency is the specific radio frequency at which atomic nuclei (usually hydrogen in water and fat) resonate when placed in a magnetic field, like the precise station a radio must tune to for clear reception. In medical imaging and materials analysis, it determines how well signals can be generated and detected—so for investors it affects device performance, compatibility with existing systems, image quality, regulatory testing and clinical adoption, all of which influence product value and market competitiveness.

nuclear magnetic moments technical

"shifts in the Larmor frequency of nuclear magnetic moments as they precess"

Nuclear magnetic moments are the tiny magnetic fields produced by the spinning protons and neutrons inside an atomic nucleus, like miniature bar magnets or spinning tops with a north and south. They determine how atoms respond to magnetic fields and thus control the strength and clarity of technologies such as MRI, NMR spectroscopy and certain quantum sensors—so investors watch them because they underpin performance, product differentiation and market value in medical imaging, materials analysis and advanced sensing industries.

inertial sensing technical

"The technology represents a new approach to high-precision inertial sensing."

Inertial sensing is the use of tiny sensors—like accelerometers and gyroscopes—to detect motion, orientation, and changes in speed, similar to how a car’s dashboard senses bumps and turns. For investors, it matters because these sensors are key components in many consumer devices, vehicles and industrial systems; their performance, cost and supply influence product features, market demand and a company’s revenue potential.

edge artificial intelligence technical

"a provider of edge artificial intelligence (“AI”) video and data processing solutions"

Edge artificial intelligence is AI software and models that run directly on local devices—like sensors, phones, cameras or factory machines—rather than relying on remote cloud servers. Like a car that makes decisions on the spot instead of calling headquarters, edge AI delivers faster responses, lower data transfer costs and stronger privacy. For investors, companies deploying or selling edge AI can gain cost savings, new product opportunities and competitive advantages that may boost revenue and margins.

gps-denied technical

"navigation solutions capable of operating effectively even in GPS-denied or contested environments"

An environment described as “GPS-denied” is one where satellite-based location signals are blocked, weak, or unreliable, such as indoors, underground, in dense urban canyons, or under intentional interference. Investors care because companies that rely on precise positioning—like makers of drones, autonomous vehicles, robotics, and defense systems—face higher technical risk or new business opportunities to sell alternative navigation solutions; it’s like asking someone to drive without a map, so demand shifts to backup technologies and services.

AI-generated analysis. Not financial advice.

Rehovot, Israel, March 20, 2026 (GLOBE NEWSWIRE) -- Maris-Tech Ltd. (Nasdaq: MTEK, MTEKW) (“Maris-Tech” or the “Company”), a provider of edge artificial intelligence (“AI”) video and data processing solutions for defense and autonomous platforms, today announced a development milestone in its collaboration with Quantum Gyro Ltd. (“Quantum Gyro”), a company developing next-generation quantum-based gyroscope technology.

Quantum Gyro has entered into an exclusive license agreement with Quantum X Labs Ltd., its parent company, covering certain quantum gyroscope technology for navigation and global positioning system (“GPS”) replacement applications. Quantum X Labs Ltd. is also the assignee of U.S. Provisional Patent Application No. 64/000,184, filed on March 9, 2026, relating to an advanced nuclear magnetic resonance (“NMR”) gyroscope technology,  reflecting a step forward in the patenting process.

The technology represents a new approach to high-precision inertial sensing. The system measures rotation by detecting shifts in the Larmor frequency of nuclear magnetic moments as they precess around an applied magnetic field, enabling extremely accurate measurement of angular motion

The companies’ focus on the development of a hybrid navigation architecture that integrates real-time AI processing with a quantum-based gyroscope capable of ultra-precise inertial measurement. By combining these technologies, the system is expected to provide a potential alternative or complementary navigation capability to GPS, significantly improving operational resilience for aerial and autonomous systems.

This quantum-based sensing architecture is designed to deliver potentially strategic-grade performance at lower cost, targeting bias drift below 0.01 degrees per hour, a level of precision traditionally associated with much larger and more expensive navigation systems. When integrated with Maris-Tech’s edge AI processing capabilities, this technology is expected to enable highly resilient navigation solutions capable of operating effectively even in GPS-denied or contested environments.

The need for such capabilities is particularly acute in the rapidly expanding unmanned aerial systems (“UAS”) market, where drones rely heavily on satellite navigation for guidance and stabilization. The joint technology is expected to enhance the autonomy and resilience of unmanned aerial vehicles (“UAVs”) operating in contested environments, where GPS signals may be intentionally disrupted.

“We believe that our collaboration with Quantum Gyro represents an important step toward next-generation resilient navigation systems,” said Israel Bar, Chief Executive Officer of Maris-Tech. “By combining Maris-Tech’s AI edge processing capabilities with quantum inertial sensing, we aim to deliver a solution that allows aerial platforms to operate reliably even when GPS signals are unavailable.”

Danny Noylander, Chief Executive Officer of Quantum Gyro, added: “Quantum sensing technologies are opening a new frontier in precision navigation. Collaborating with Maris-Tech allows us to combine our quantum gyroscope innovation with advanced AI processing to create a powerful navigation solution designed for the most demanding aerospace and defense environments.”

About Maris-Tech

Maris-Tech delivers AI-powered edge video solutions for mission-critical defense and security operations, enabling real-time situational awareness, intelligence gathering, and surveillance in bandwidth- and latency-constrained environments. Trusted by leading security organizations, Maris-Tech platforms are deployed across UAVs, UGVs, armored vehicles, and dismounted soldier systems, supporting missions that require ultra-low-latency video processing and onboard AI analytics. From intelligence collection in extreme conditions to AI-driven surveillance and terrain dominance, Maris-Tech masters the AI video pipeline at the edge through best-in-class SWaP-optimized, ruggedized computing solutions.

For more information, visit www.maris-tech.com.

About Quantum Gyro

Quantum Gyro is a technology company focused on developing quantum-based inertial sensing systems, including advanced gyroscopes designed to deliver ultra-high precision navigation capabilities for aerospace, defense, and autonomous systems operating in GPS-challenged environments.

Forward-Looking Statements

This press release contains “forward-looking statements” within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended, that are intended to be covered by the “safe harbor” created by those sections. Forward-looking statements, which are based on certain assumptions and describe our future plans, strategies and expectations, can generally be identified by the use of forward-looking terms such as “believe,” “expect”,” “may”, “should,” “could,” “seek,” “intend,” “plan,” “goal,” “estimate,” “anticipate” or other comparable terms. For example, the Company is using forward-looking statements when it is discussing the potential performance and capabilities of the quantum NMR gyroscope technology, the expected development of a hybrid navigation architecture combining AI processing and quantum sensing, the potential ability of the system to operate in GPS-denied or contested environments, the anticipated precision and bias-drift performance targets of the technology, the potential integration of the technology into autonomous aerial platforms and UAV systems, the expected benefits of the collaboration between Maris-Tech and Quantum Gyro, the potential commercial and defense applications of quantum navigation technologies, and the growth and demand for resilient navigation solutions in the unmanned aerial systems market. The Company’s actual results and financial condition may differ materially from those indicated in the forward-looking statements. Therefore, you should not rely on any of these forward-looking statements. Important factors that could cause our actual results and financial condition to differ materially from those indicated in the forward-looking statements include, among others, the following: its ability to successfully market its products and services, including in the United States; the acceptance of its products and services by customers; its continued ability to pay operating costs and ability to meet demand for its products and services; the amount and nature of competition from other security and telecom products and services; the effects of changes in the cybersecurity and telecom markets; its ability to successfully develop new products and services; its success establishing and maintaining collaborative, strategic alliance agreements, licensing and supplier arrangements; its ability to comply with applicable regulations; and the other risks and uncertainties described in the Annual Report on Form 20-F for the year ended December 31, 2024, filed with the SEC on March 28, 2025, and its other filings with the Securities and Exchange Commission. The Company undertakes no obligation to publicly update any forward-looking statement, whether written or oral, that may be made from time to time, whether as a result of new information, future developments or otherwise.

Investor Relations:

Nir Bussy, CFO

Tel: +972-72-2424022

Nir@maris-tech.com 

FAQ

What did Maris-Tech (MTEK) announce on March 20, 2026 about quantum navigation?

Maris-Tech announced a development milestone integrating quantum gyroscope tech with its edge AI processing. According to the company, the collaboration includes an exclusive license and a provisional patent application filed March 9, 2026, for an NMR-based gyroscope approach.

What performance target did Maris-Tech and Quantum Gyro set for the quantum gyroscope in MTEK's announcement?

The partners targeted bias drift below 0.01 degrees per hour for the quantum gyroscope. According to the company, that precision aims to match strategic-grade inertial measurement at lower size and cost for UAV navigation.

How will Maris-Tech (MTEK) use quantum gyroscope technology for GPS-denied UAV navigation?

Maris-Tech plans to integrate quantum inertial sensing with real-time edge AI to enable resilient navigation when GPS is unavailable. According to the company, the hybrid architecture is designed to support autonomous aerial systems in contested environments.

Did Maris-Tech disclose commercial terms or a timeline for MTEK's quantum navigation product rollout?

No commercial terms or specific commercialization timeline were disclosed in the announcement. According to the company, the news describes a development milestone, an exclusive license, and a provisional patent filing, not product launch dates.

What intellectual property update did Maris-Tech mention in the March 20, 2026 release for MTEK?

The announcement noted that Quantum X Labs assigned U.S. Provisional Patent Application No. 64/000,184 filed March 9, 2026. According to the company, the filing relates to an advanced NMR gyroscope technology for navigation and GPS replacement applications.