ASI is working on things that no one else is doing today—taking existing vehicles and converting them to autonomous. We can use the same basic kit on a lot of different vehicles: mining equipment, agriculture vehicles, and everything in between.
This makes it possible to reduce driver exposure to hazardous conditions. After all, a robot can’t get a back or neck injury.
The Mobius technology has been developed over the last 17 years to optimize systems, so an operation can get lots of vehicles working together. One person can control 50 vehicles, and the Mobius technology keeps them from hitting each other and enables them to run constantly for 24 hours.
Projects that were never financially viable now become a possibility under an autonomous operation. The ASI system can also interface with vehicles that are not autonomous, which gives operators the ability to work in a mixed traffic environment.
Putting the robot in a vehicle opens the door for many industries to be more innovative and a lot safer. If you can dream it, there are people at ASI who can do it. To see the game-changing capability of ASI’s solutions in action, enjoy the video.
SALT LAKE CITY, JULY 13, 2017 – Autonomous Solutions, Inc. (ASI) has been awarded additional funding through the Department of Defense (DoD) to further apply machine learning and artificial intelligence to improve the mobility and behavior of autonomous vehicles in challenging environments.
Two other ongoing programs with the government include the development of machine learning for obstacle classification, LIDAR-camera fusion, and vehicle auto tuning using artificial intelligence. The developments will enable ASI’s autonomous ground vehicles to adapt in real time to difficult dynamic environments for automotive, agriculture, mining, construction, floor cleaning, security surveillance, and lawn mowing robots.
“In order for us to maintain our leadership in the unmanned vehicle space we must continue to push the boundaries of what is possible with machine learning and artificial intelligence,” says CEO and founder of ASI, Mel Torrie. “These programs will ensure that we continue to offer our customers and partners the most advanced safe and simple autonomous solutions.”
“The ability for vehicles to learn from past experience and continuously improve as they drive is important. These benefits multiply as the robots share their learning with other vehicles in the area in real time. The use of Machine Learning and AI will enable huge strides in efficiency improvement and maintenance reduction,” says Dr. Jeff Ferrin, Research and Development General Manager.
Mel Torrie will be sharing more about this exciting technology development at the Silicon Valley Innovation and Entrepreneurship Conference in Beijing China on 15 July 2017 and at the Silicon Valley-China AI & Investment Forum on 19 July 2017 in Santa Clara, California in an AI session alongside leading pioneers in this space from companies like Tesla, IBM, Facebook, and Samsung.
In the proving ground environment, car manufacturers engage in extensive durability and misuse testing.
They might jump a vehicle off a ledge, run it into a wall, or even run tests in which the vehicle rolls over—all to improve the safety of the vehicle for consumers.
The challenge is there is a clear limit to what you can test with a driver in the car. Though the ultimate buyer of the vehicle may misuse a car or truck in hundreds of imaginative ways, proving grounds need to keep the health and safety of their drivers in mind when they’re designing tests.
In fact, one of ASI’s customers recently had to shut down a ditch twist test the first day they started running it, after two test drivers endured neck injuries. Since then, they turned to ASI to automate their vehicle. They now run the test all the time, ultimately improving the safety of the vehicle itself.
Putting the robot in a vehicle opens the door for a proving ground to be very innovative in what kinds of tests they can write and run. To learn more about the capability of ASI’s proving ground solution, please enjoy the video.
For automakers, manufacturing vehicles that are safe is the number one priority. In order to evaluate the safety and reliability of cars and trucks, companies test their models on miles of tracks known as proving grounds.
Here, human drivers are often employed to subject automobiles to rigorous handling and varying conditions so engineers can assess the effects of different speeds, driving scenarios, and varying passenger loads.
But the human element of these durability and misuse tests comes with many disadvantages that, when removed, can optimize operations leading to faster results and direct cost savings.
The first advantage of replacing a human driver with robotics programmed with artificial intelligence is it increases safety on the tracks. There’s no individual who can be harmed performing high-risk exercises, decreasing the liability of automakers.
There are government regulations regarding the use of humans behind the wheel on proving grounds which can slow testing; these rules don’t come into play with an autonomous solution.
Humans require breaks and there are stiff safety regulations that dictate only one to three hours behind the wheel every twenty four hour period in many cases. On the other hand, robots can perform for an extended time period only needing to stop to refuel. And one of the most notable benefits of robotics is a more successful rate of repeatability that an individual just can’t match.
A Multi-Vehicle Control Platform
ASI’s Mobius for proving grounds is a multi-vehicle command and control platform that allows a single operator to oversee the operation of an entire fleet of automobiles. To accomplish this, vehicles are fitted with ASI’s Vehicle Automation Kit which includes our VCU (vehicle control unit) that communicates with Mobius.
The platform allows for the creation of custom paths to fit the parameters of desired tests, as vehicles can be programmed to accelerate, decelerate or perform any number of actions at precise locations. By fitting a beacon on non-autonomous vehicles, Mobius will recognize and account for them so both traditional and driverless vehicles can occupy a track at the same time.
Proven Results on Proving Grounds
Proving grounds using ASI’s Mobius technology see dramatically improved efficiency. One customer reported that tests with human drivers took 12 days to complete as a result of higher test failure rate due to human error, the restrictions of heavy safety regulations, and natural human fatigue requiring breaks. These same tests took robot drivers just five days to complete and logged high test ratings due to superior repeatability.
Car companies deploying ASI’s Mobius multi-vehicle autonomous technology for proving grounds enjoy faster, more accurate tests at reduced costs without putting a human driver in harm’s way.
Competitors’ solutions don’t allow the flexibility that Mobius provides in creating custom paths and events, which is why Ford, Toyota, FCA and Hyundai all rely on Mobius and ASI for durability and misuse testing. To learn more about the power and capability of Mobius, visit ASIrobots.com today!
The market for robots is booming and primed for further growth. Estimates by the International Federation of Robotics report unit sales of industrial robots grew 15% in 2015, while revenue increased 9% to $11bn.
Consultant firm ABI Research sees sales of industrial robots tripling by 2025. The popularity of robots is driven by their effectiveness in optimizing operations, lowering costs, and improving workplace safety.
Contrary to popular belief, automated machines don’t spell doom and gloom for the human workforce. The adoption of manufacturing robots in high-wage countries is allowing companies to reshore jobs, moving them back from low-wage countries like China, and employing locals back home.
Sportswear giant Adidas announced this year it will produce running shoes in a German factory staffed by robots and 160 new workers. It’s part of an overall trend where companies are investing in “collaborative robots” that are designed to operate alongside human workers.
Firms looking to incorporate automated vehicles into their workforce need look no further than ASI, a world leader in unmanned ground vehicle systems. We’ve developed a robotics platform that’s specifically designed for rapid integration into our partners’ ecosystems. Our robust technology ranges from driver assistance solutions to full, multi-vehicle autonomy.
We can easily automate any vehicle, regardless of manufacturer, using our Vehicle Automation Kit. It can also be leveraged for electronic, by-wire control of vehicles with controls capable of this function. Control functions are delivered via our Mobius software, the industry’s most advanced unmanned command and control system.
GLOBAL PARTNERSHIP PROGRAM
Through our Global Partnership Program, we’ve teamed up with OEMs and delivered automated solutions to leading brands including Ford Motor Company, Goodyear Tires, CNH Industrial, Boeing, General Dynamics, and Lockheed Martin. Fortune 500 companies and government entities trust us for reliable technologies that prioritize safety above all.
Our industry-leading engineers and researchers can serve as an extension of an existing robotics engineering team, or in lieu of one, in order to create and sustain a company’s competitive advantage. We offer three partnership models to choose from:
COLLABORATION – With innovations in global robotics developing at an exponential rate, stay ahead of the curve by leveraging our engineering. Whether it be for a single project or multi-year initiatives, we’re here to collaborate.
CONTRACT OUTSOURCING – If you have a disruptive idea, we can make it a reality with experts in business strategy, marketing, sales and creative finance to assist in creating liability isolated business entities.
EQUITY OWNERSHIP – Our aim is to find long-term strategic partners for equity positions. We offer creative and flexible ownership opportunities so our partners can secure access to our robotics solutions.
Whatever your current position, ASI is standing by, ready to help your organization reach its automation goals through a trusted partnership. To learn more about integrating ASI technology into your operation, visit ASIrobots.com.
A recent survey by the World Economic Forum found that 82% of executives in the mining industry plan to increase investments in digital technology within the next three years, and nearly a third (28%) expect those contributions to be significant.
This widespread commitment to data visualization, cybersecurity, robotics, and automation will have profound implications for what is a 402-billion-dollar industry.
It is very likely that organizations who move swiftly to adopt and implement these new technologies will emerge as market leaders with significantly reduced costs and overhead.
The same report found that early adopters may see an EBITA difference of nearly 70% compared to their laggard counterparts.
This stark contrast can be attributed to vast increases in operational efficiency. Companies that embrace robotics and automation will lower administrative costs, prolong equipment life, and be able to make better on the scene decisions.
There is also an increase in productivity associated with technologies like Robotic Process Automation (RPA).
RPA takes many of the repetitive tasks that are associated with a large knowledge workforce and mimic these activities through software to free up human counterparts for more creative and important work.
Mckinsey reports that one company saw a nearly 200% ROI from the RPA efforts, in the first year. Savings like this are leading many businesses to combine their IT and OT departments. These integrations will allow for unprecedented synergies in the field and at headquarters.
Over 23% of respondents in the Accenture Digital Technology in Mining Survey 2016 also reported that their organization has widespread adoption of robotic technology, and another 29% are in the pilot phase.
These means that physical robots will soon be an integral part of mining operations for the majority of industry leaders.
There will continue to be seismic shifts in the mining industry and many companies that are late to adopt will find themselves on the wrong end of a zero sum game.
To learn more about the future of mining, visit twitter and tag @AccentureMining
In our continued leadership innovating autonomous solutions for the mining industry, ASI has become a member of the Global Mining Standards and Guidelines Group (GMSG).
GMSG is an international mine operator-driven community that facilitates collaboration across the mining industry to solve common problems and develop standards, guidelines, and best practices.
As a corporate member, ASI has the opportunity to influence current and future initiatives, and shape the future of the global mining industry with respect to autonomy.
GMSG is presently developing an autonomous mining guideline for international use. Implementing autonomous solutions is a high-level priority for operators within the space, but due to the newness and general unfamiliarity with the technology, its integration has proven rather challenging for companies, in particular those that seek to scale up their current autonomous machines only to be frustrated by interoperability issues.
It is the group’s goal to share best practices for autonomous technology implementation in order to drive innovation, facilitate conversations with regional regulators, and optimize both mining safety and production.
For the purpose of creating a homogenous autonomous mining system, CMSG will borrow from the established work of outside industries in order to speed progress.
International protocols will guide manufacturers and tech providers in their innovation and development strategies.
It will also lead to consistency in output and process control so that the industry moves forward in lock-step.
And it’ll allow owners and operators to understand data requirements and standards, while contributing to the work of the International Organization of Standardization (ISO).
ASI is committed to engineering autonomous solutions that are interoperable with systems and equipment used all over the world.
As a member of the GMSG, we are in a prime position to establish the guidelines for autonomy, ensuring that our technology is standardized and able to provide maximum interoperability.
We are excited to take part in developing these global protocols.
Autonomous convoys hold great promise for military applications. Enhanced safety and efficiency can be achieved by eliminating or decreasing the number of human personnel required to transport a convoy.
However, technological difficulties have slowed the implementation of driverless solutions by military departments. To solve these challenges, ASI has developed the Guideline Robotic Convoy, a simple and reliable autonomous convoy solution.
THE GUIDELINE ADVANTAGE
Guideline succeeds where previous autonomous convoy solutions failed because it relies on a physical Kevlar tether and robotic leader-follower sensor to achieve driverless guidance. Other systems use GPS or lasers for navigation, but a GPS satellite signal can be weakened or blocked in different scenarios, stopping a convoy in its tracks.
Dusty conditions or even jamming equipment can interfere with laser-guidance making it unreliable. Guideline performs in all terrains, all weather conditions, and without depending on GPS. The Guideline system is a self-contained unit, which means everything needed to establish a driverless convoy is housed in an easy to install device.
No modifications to the leader vehicle is required and the system integrates with ASI’s Vehicle Automation Kit or any third-party automation appliqué kit. Multiple vehicles can be tethered together to form convoys of any size.
FOLLOW THE LEADER
Tether a lead vehicle to a Guideline-equipped follower and start driving. The follower vehicle will mimic the leader’s path with sufficient accuracy for lane-keeping at highway speeds. When the leader accelerates, the follower accelerates; when the leader turns right, the follower turns right at the location where the turn occured.
Reverse, hairpin turns, donut holes — using advanced robotics housed in the Guideline unit, the follower vehicle will perform every maneuver the lead vehicle performs with incredible precision.
In the event of obstructions in tight quarters, the tethered vehicles will plot a safe course around obstacles and continue following the lead vehicle.
If you’d like a more detailed pathway, our autonomy application specialists are ready to help!
ENGINEERED FOR MILITARY APPLICATIONS
Guideline was specifically engineered for military applications, allowing for unmanned convoy operations.
It’s useful for transporting robotic vehicles on public roads without a trailer, and provides a failsafe “follow me” capability for robotic vehicles. It improves the safety of convoy missions by reducing the number of human personnel who could be targeted by enemy combatants.
The advanced robotics enable operations in GPS-denied, RF-denied, and low-visibility environments, enhancing reliability and efficiency.
Guideline Robotic Convoy is an affordable automation system that provides an easy step into driverless solutions for military applications. It can be used in the field of duty or on a base.
To learn more about Guideline and the rest of our autonomous technologies, contact us today!
The May 2017 issue of International Mining Magazine published a feature article on ASI highlighting our innovative, graduated approach to implementing autonomous solutions for mining companies. This graduated autonomy model champions the deliberate and incremental integration of driverless elements that charts the pathway to a fully unmanned operation.
THE PITFALLS OF PIECEMEAL WITHOUT A ROADMAP
Going from a manned fleet to an unmanned one is a complex endeavor that is unfeasible for many mining operations, whether it be due to the inability to fund such an initiative or the possibility of short-term production disruption during the transition. In order to wade into the waters of autonomy, some mine operation have taken a piecemeal approach, rolling out select autonomous elements without considering how these assets will fit into a complete system that one day realizes full autonomy.
Investing in a few automated solutions here and there without a clear view of the big picture frequently results in wasted time and money when operations discover that their equipment must be scrapped in order to advance to a new level of greater autonomy.
THE GRADUAL APPROACH
ASI’s model is designed not just for big mining companies seeking to transition to full autonomy in a pragmatic step-by-step fashion, but also mid-tier and smaller operations with limited resources. The gradual approach is conceived as an integrated, concentric pie chart that encompasses all elements of full autonomy and the steps needed to achieve it.
Our model is supported by technology that is OEM agnostic and scalable, meaning that assets are interoperable with those from multiple vendors, both existing and new, and can be expanded at a time of the client’s choosing. This incremental and future-proof system is advantageous to operations of all sizes, since it provides an opportunity to customize and configure an approach to each site, depending on its unique readiness.
THE FLEXIBILITY OF MOBIUS
The ASI incremental approach is made possible by centering our Mobius Command and Control platform at the core. The software initially delivers partial automation of the haulage fleet, and operator assist functions such as collision warning, fatigue monitoring, or auto spotting.
We developed it as a flexible solution that can operate as a fleet management system or integrate with an existing one. While a company may start off small by implementing a few operator assist functions, Mobius stands ready to scale into more advanced features until full autonomy is attained.
In order to deliver the greatest value to customers both now and in the future, ASI’s graduated model charts a sample path one could take to reach full autonomy. Mine operations can add autonomous solutions at their own pace with the confidence that each investment brings them one step closer to a completely unmanned operation.
If you’d like a more detailed pathway, our autonomy application specialists are ready to help!