Investors: Press Release

GeckoSystems’ SafePath(tm) AI Mobile Robot Demo Secures Licensing Agreement


CONYERS, Ga., May 16, 2016 -- GeckoSystems Intl. Corp. (Pink Sheets: GOSY | http://www.geckosystems.com/) announced today that two long time Japanese partners, iXs, Ltd., (iXs) and Fubright Communications Corp. (FCC), demonstrated the company’s BaseBot(tm) mobile robot known as “Lou” to IC Corp., Ltd. (ICCL) senior management last week. For over eighteen years GeckoSystems has dedicated itself to development of "AI Mobile Robot Solutions for Safety, Security and Service(tm)."

 

The demonstration of GeckoSystems’ “loose crowd” level of mobile robot autonomously self-ambulating to the seven CEO’s and senior management of these international robotics firms was an unqualified success. They represent, in total, over seventy years of experience in complex robotics systems design, deployment and support. While the demo was done at FCC’s R&D lab, “Lou” is being relocated to ICCL’s new, three times larger, facility this week.

 

An earlier third party verification of GeckoSystems’ AI centric, human quick sense and avoidance of moving and/or unmapped obstacles by one of their mobile robots can be viewed here: http://t.co/NqqM22TbKN

 

GeckoSystems’ CEO is traveling to Japan Friday of this week to sign one or more AI software licensing deals as a result of their long time Japanese agent’s (Mr. Fujii Katsuji) representation in Japan. The increased interest from Japan in the company’s AI mobile robot solutions is due, in part, to the translation of the Company’s Worst Case Execution Time (WCET, aka “reflex” or “reaction” time) white paper from English to Japanese late last year by Dr. Ru Wang, a physicist. That paper explains the importance of GeckoSystems' breakthrough, proprietary, and exclusive AI software and why this premier Japanese robotics company, ICCL, desires to enter a contractual joint venture relationship with GeckoSystems.

 

“Certainly I am pleased to be going on my second trip to Japan in the last eighteen months. Not only will I be strengthening existing relationships, but consummating at least one, if not two or more, significant licensing agreements,” reflected Martin Spencer, CEO, GeckoSystems Intl. Corp.

 

Last year, on July 8th, FCC published this press release: “Pepper Application R&D About Collaborative R&D of Autonomous Self-Driving Service Robot” http://tinyurl.com/hlqz6bw

 

Here are the noteworthy excerpts from this press release:

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"Fubright Communications Co., Ltd., Tokyo Japan and GeckoSystems Intl. Corp., the Service Robot Development company of the United States have agreed to do collaboration in R&D and marketing of the advanced safe autonomous self-traveling service robot.

 

"Fubright Communications Inc. a well-known specialist of nursing care service system will aim at the area especially elderly care / watch field and develop a service robot that reduces the burden of the elderly / nursing care workers using advanced AI technologies which GeckoSystems, Inc. has been developing over the years.

 

"Both companies are confident that their advanced safe service robot will contribute to the Japan rapidly aging society helping elderlies live safer and easier."

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Having the support of both iXs and FCC, and now ICCL, further confirms GeckoSystems' expertise to potential joint venture partners and licensees in the Pacific Rim. 

 

"We are very much looking forward to meet with Mr. Spencer and discuss the large Japanese market for 'welfare robots,'" stated Mr. Takashi Nabeta, CEO, ICCL.

 

GeckoSystems has had their safety clause Non-Disclosure Agreement (NDA) with iXs Research Corp. since April of 2013 and with Fubright Communications, Ltd. since April of 2015. IC Corp. Ltd. has been under NDA since December of 2015.  GeckoSystems effectuated a Memorandum of Understanding (MOU) with iXs in May of 2013: http://tinyurl.com/hhsc5c8  The MOU is significant due to iXs' stature as an exporter of several robotic systems and subsystem products that are sold globally. Further, iXs designs and manufactures its own line of humanoid robots in addition to components for their domestic Japanese robot industry. 

 

The Japanese government is very concerned about their “Silver Tsunami.” At this time, there are approximately 2,200,000 million Japanese over 65 living alone. Their greatest fear is to die alone and that their demise not be known to others for a few days. For this reason and many others, the Japanese government pays 90% of the cost of personal robots used for eldercare such that concern would be well addressed. Consequently, the Japanese government is paying 75% of the R&D costs to develop robotic healthcare solutions for greater productivity to provide more economic care giving for their extraordinarily large senior population. This recent article further underscores Japan's commitment to eldercare capable, 'welfare' robots: "Japan govt to urge nursing care robot development" http://tinyurl.com/oehxdba

 

In order for any companion robot to be utilitarian for family care, it must be a "three legged milk stool."  For any mobile robot to move in close proximity to humans, it must have:

(1) Human quick reflex time to avoid moving and/or unmapped obstacles, (GeckoNav(tm): http://tinyurl.com/le8a39r) (See the importance of Worst Case Execution Time (WCET) discussion below.)

(2) Verbal interaction (GeckoChat(tm): http://tinyurl.com/nnupuw7) with a sense of date and time (GeckoScheduler(tm): http://tinyurl.com/kojzgbx), and

(3) Ability to automatically find and follow designated parties (GeckoTrak(tm): http://tinyurl.com/mton9uh) such that verbal interaction can occur routinely with video and audio monitoring of the care receiver uninterrupted.

 

Spencer recently met with local representatives of the Japan Export Trade Organization (JETRO) in Atlanta, GA.  JETRO was founded in 1951 by the Japanese government to facilitate international trade with Japan.  As a result of that meeting, Messrs. Nabeta, Fujii and Spencer will be meeting with JETRO representatives in Tokyo on Tuesday May 31st to discuss the JETRO subsidies available for Japanese eldercare robot product development.  

 

"Certainly, on both sides of the Pacific, we are doing as much as is prudent to maximize the benefit of the monetary costs and time in going to Japan. This new JV continues to progress robustly, such that GeckoSystems will enjoy additional licensing revenues that will enable us to further increase shareholder value. After many years of patience by our current 1300+ stockholders, they can continue to be completely confident that this new, multi-million-dollar licensing agreement to be signed while I am in Japan further substantiates and delineates the reality that GeckoSystems will enjoy additional licensing revenues to further increase shareholder value," concluded Spencer.

 

 

The safety requirement for human quick WCET reflex time in all forms of mobile robots:

 

In order to understand the importance of GeckoSystems' breakthrough, proprietary, and exclusive AI software and why another Japanese robotics company desires a business relationship with GeckoSystems, it’s key to acknowledge some basic realities for all forms of automatic, non-human intervention, vehicular locomotion and steering.

 

  1. Laws of Physics such as Conservation of Energy, inertia, and momentum, limit a vehicle’s ability to stop or maneuver. If, for instance, a car’s braking system design cannot generate enough friction for a given road surface to stop the car in 100 feet after brake application, that’s a real limitation. If a car cannot corner at more than .9g due to a combination of suspension design and road conditions, that, also, is reality. Regardless how talented a NASCAR driver may be, if his race car is inadequate, he’s not going to win races.

 

  1. At the same time, if a car driver (or pilot) is tired, drugged, distracted, etc. their reflex time becomes too slow to react in a timely fashion to unexpected direction changes of moving obstacles, or the sudden appearance of fixed obstacles. Many car "accidents" result from drunk driving due to reflex time and/or judgment impairment. Average reflex time takes between 150 & 300ms. http://tinyurl.com/nsrx75n

 

  1. In robotic systems, "human reflex time" is known as Worst Case Execution Time (WCET). Historically, in computer systems engineering, WCET of a computational task is the maximum length of time the task could take to execute on a specific hardware platform. In big data, this is the time to load up the data to be processed, processed, and then outputted into useful distillations, summaries, or common sense insights. GeckoSystems' basic AI self-guidance navigation system processes 147 megabytes of data per second using low cost, Commercial Off The Shelf (COTS) Single Board Computers (SBC's).

 

  1. Highly trained and skilled jet fighter pilots have a reflex time (WCET) of less than 120ms. Their "eye to hand" coordination time is a fundamental criterion for them to be successful jet fighter pilots. The same holds true for all high performance forms of transportation that are sufficiently pushing the limits of the Laws of Physics to require the quickest possible reaction time for safe human control and/or usage.

 

  1. GeckoSystems' WCET is less than 100ms, or as quick, or quicker than most gifted jet fighter pilots, NASCAR race car drivers, etc. while using low cost COTS and SBC's

 

  1. In mobile robotic guidance systems, WCET has 3 fundamental components.
  2. Sufficient Field of View (FOV) with appropriate granularity, accuracy, and update rate.
  3. Rapid processing of that contextual data such that common sense responses are generated.
  4. Timely physical execution of those common sense responses.

 

 

About GeckoSystems:

 

GeckoSystems has been developing innovative robotic technologies for fifteen years.  It is CEO Martin Spencer's dream to make people's lives better through robotic technology.

 

An overview of GeckoSystems' progress containing over 700 pictures and 120 videos can be found at http://www.geckosystems.com/timeline/.

 

These videos illustrate the development of the technology that makes GeckoSystems a world leader in Service Robotics development. Early CareBot prototypes were slower and frequently pivoted in order to avoid a static or dynamic obstacle; later prototypes avoided obstacles without pivoting.   Current CareBots avoid obstacles with a graceful “bicycle smooth” motion.   The latest videos also depict the CareBot's ability to automatically go faster or slower depending on the amount of clutter (number of obstacles) within its field of view.   This is especially important when avoiding moving obstacles in “loose crowd“ situations like a mall or an exhibit area.

 

In addition to the timeline videos, GeckoSystems has numerous YouTube videos. The most popular of which are the ones showing room-to-room automatic self-navigation of the CareBot through narrow doorways and a hallway of an old 1954 home.  You will see the CareBot slow down when going through the doorways because of their narrow width and then speed up as it goes across the relatively open kitchen area.  There are also videos of the SafePath(tm) wheelchair, which is a migration of the CareBot AI centric navigation system to a standard power wheelchair, and recently developed cost effective depth cameras were used in this recent configuration.  SafePath(tm) navigation is now available to OEM licensees and these videos show the versatility of GeckoSystems' fully autonomous navigation solution. 


GeckoSystems, Star Wars Technology

http://www.youtube.com/watch?v=VYwQBUXXc3g

 

The company has successfully completed an Alpha trial of its CareBot personal assistance robot for the elderly.  It was tested in a home care setting and received enthusiastic support from both caregivers and care receivers.   The company believes that the CareBot will increase the safety and well being of its elderly charges while decreasing stress on the caregiver and the family.

 

GeckoSystems is preparing for Beta testing of the CareBot prior to full-scale production and marketing.   CareBot has recently incorporated Microsoft Kinect depth cameras that result in a significant cost reduction.

 

Kinect Enabled Personal Robot video:

http://www.youtube.com/watch?v=kn93BS44Das

 

Above, the CareBot demonstrates static and dynamic obstacle avoidance as it backs in and out of a narrow and cluttered alley.  There is no joystick control or programmed path; movements are smoother that those achieved using a joystick control.  GeckoNav creates three low levels of obstacle avoidance: reactive, proactive, and contemplative.  Subsumptive AI behavior within GeckoNav enables the CareBot to reach its target destination after engaging in obstacle avoidance.

 

More information on the CareBot personal assistance robot:

http://www.geckosystems.com/markets/CareBot.php

 

GeckoSystems stock is quoted in the U.S. over-the-counter (OTC) markets under the ticker symbol GOSY.   http://www.otcmarkets.com/stock/GOSY/quote

 

GeckoSystems uses http://www.LinkedIn.com as its primary social media site for investor updates. Here is Spencer's LinkedIn.com profile:

http://www.linkedin.com/pub/martin-spencer/11/b2a/580

 

 

Telephone:

Main number: +1 678-413-9236

Fax: +1 678-413-9247

Website:  http://www.geckosystems.com/

Source: GeckoSystems Intl. Corp.

 

Safe Harbor:

 

Statements regarding financial matters in this press release other than historical facts are "forward-looking statements" within the meaning of Section 27A of the Securities Act of 1933, Section 21E of the Securities Exchange Act of 1934, and as that term is defined in the Private Securities Litigation Reform Act of 1995. The Company intends that such statements about the Company's future expectations, including future revenues and earnings, technology efficacy and all other forward-looking statements be subject to the Safe Harbors created thereby. The Company is a development stage firm that continues to be dependent upon outside capital to sustain its existence. Since these statements (future operational results and sales) involve risks and uncertainties and are subject to change at any time, the Company's actual results may differ materially from expected results.