RobotShop Feeds

---

• GoRobotics Selected to be the Best Robotic Resource for Electrical Enginners
• Behold the Totally Revamped RobotShop Blog
• GoRobotics Merges with the RobotShop Blog
• Don’t Be a Square! Get a Cube 3D Printer
• 05.24.2013 – Get Ready to Change the World of Robotics
• Get a Massage From WheeMe the Robot
• RobotShop and DSPRobotics to Re-engineer FlowBotics Studio
• RobotShop Forced to Stop Selling and Supporting the Italian Lawnbott Robot Mower from Zuchetti Centro Systemi
• Basics: How Do I Choose a Battery?
• 2008 Robot Hall of Fame

GoRobotics Selected to be the Best Robotic Resource for Electrical Enginners Posted: 26 Feb 2013 01:31 PM PST If you have a keen sense of observation, you would have noticed the badge over to the GoRobotics logo, if not, here it is again. Top Resource for Electrical Engineers We are very proud to announce that GoRobotics was selected to be the Best Robotics Resource for Electrical Engineers by the Electrical Engineering Schools website, a portal focusing on educational resources for EE students. We are very happy to see that our efforts in trying to provide everybody with the information need to understand and make robots are appreciated by the community. GoRobotics has everything the robotics beginners need to start their projects. With a section titled "How to build a Robot" along with forums and social networking page, those fascinated with robots will find everything here they need - Electrical Engineering Schools For this achievement  we must of course thanks our community who participates with their question, suggestions, and overall interest for robotics. As long as our readers will be willing to learn and make, we will keep working to bring you the resources they need to make robots.

Behold the Totally Revamped RobotShop Blog Posted: 26 Feb 2013 01:07 PM PST New Robotshop Blog Look With the objective of providing our customers with the best service possible, not only did we upgraded the look and feel of our blog, but also supplemented with all the content from GoRobotics.net. More than meets the eye But don’t get fouled bu the pretty colours; This is more than a shallow update of the looks. We completely redesigned the blog layout in order to make it compliant with the latest web technology. As explained in a previous post, we merged the content from GoRobotics.Net and our older Learning Centre in order to transform this blog into the ultimate destination for learning about robotics and getting informed about the latest robotic developments. Also, we incorporated lots of new functionality to help your browsing experience. New Features New RobotShop blog features Besides the obvious look change, we incorporated several new features that we believe improve the blog usability: Fluidity! The blog content will now stretch to the entire extent of your browser window. No matter if you are looking at the blog in a 1080 HD screen or in a smaller device, the site will adjust and fill your screen with robotic goodies. Responsive? Not yet, but it is not impossible that the feature will be incorporated in the future. RobotShop Product Search and cart link incorporated in the blog header to help you integrate your robotics news and robotic goods consumption. Quick access links to our forums where you can discuss your robotic technical questions and prouesses. A better integrated blog search. For instance, our 404 Error page will try to find what you are looking for even if you do not have the correct link. New hierarchical categorization of the content to help you browse it more conveniently. Also, it comes with a fancy accordion-style collapsing system for the pleasure of your senses. Posts excerpt! We understand that you need access to the information fast, that is why we now display short excerpts of the posts along with a preview image that helps you know if you want to dig into the article or not. Featured category buttons at the top of the pages suggest and illustrate other categories that might interest you. Authors are now more prominently featured in posts and on all pages. Don’t be surprised if new contributors from the community join the blog and start authoring some posts. Featuring Authors Old browser new tricks This is not your everyday grandma’s site, it uses cutting edge HTML5 technology to bring you a fast and fancy browsing experience. As such, it will take more than your grandma’s browser to fully enjoy it. We recommend updating to the latest version or your standards-compliant browser to get the full RobotShop Blog experience. Something is Broken! We redesigned every single aspect of this website and as such, it is a tremendous undertaking, This is why, despite our efforts, things might still be broken some times. However, don’t panic. If you see something out of place, a dead link, or one of the pages becoming sentient and trying to take over your computer, simply leave a comment and we will make sure to correct those kinks.  How do you like it? Are you as exited as we are about the revamping of our blog? Leave a comment below with your impressions, suggestions and feelings.

GoRobotics Merges with the RobotShop Blog Posted: 26 Feb 2013 12:04 PM PST GoRobotics Education GoRobotics has been renewed and integrated into RobotShop blog. In the objective to keep one of the best online resources for robotic learning evolving and current, we revamped its looks, re-categorized its posts, added a bunch of new content and merged it with the RobotShop Blog. Wait what? All the resources from GoRobotics.net have been integrated along with the older RobotShop blog, and the RobotShop Learning Center to create a new comprehensive resource about robotics news and learning. Feel free to browse the entire GoRobotics contents. So what does it change for me? You will find all the GoRobotics content by going to the old addresses you are used to, or you can simply visit the GoRobotics category page. Also, if you were subscribed to the feeds, we recommend you update your  subscription and use the global feed from now now on: http://feeds.feedburner.com/RobotshopFeeds By following this feed or website, you will get all the latest robotics learning material and the latest robotic news. Now what? Now you can browse, explore, discover the new GoRobotics articles and rediscover the previous material under a new light. If you like (or hate) what you see leave a comment below and share your thoughts with us.

Don’t Be a Square! Get a Cube 3D Printer Posted: 25 Feb 2013 12:33 PM PST Cube 3D Printer RobotShop now carries the Cube 3D printer from 3D Systems. This is a very friendly 3D printer that allows you to make colourful objects quite easily thanks to several web applications 3D Systems puts at the disposal of the printer owner. See the samples of the things you could do with this printer in the video below. Of course, you can also create your own 3D models and print them as well in your choice of PLA or ABS plastic. Since this is probably the most user-friendly printer we carry, we are really eager to see what our customers will be printing with this nifty machine and what crazy robots will ensue. What would make first if you had this 3D printer? Tell us in the comments blog and do not forget to pick up yours soon.

05.24.2013 – Get Ready to Change the World of Robotics Posted: 29 Jan 2013 06:56 AM PST Servo Erector Set V1.1 FlowBotics Studio V2

Get a Massage From WheeMe the Robot Posted: 24 Jan 2013 09:31 AM PST Wheeme Giving a Massage We tend to associate giving or receiving a massage as a process involving only humans – until now. Of course, robots don’t need massages, so they tend to concentrate on providing them instead. The WheeMe Massage Robot by DreamBots is a  palm-size four wheeled robot that gently massages and caresses your body. Embodying unique tilt sensor technology, the WheeMe automatically and silently steers itself over your body without falling off or losing its grip. As it moves, the WheeMe’s patented “fingerettes” gently stroke and caress your skin. It doesn’t require any adjustments nor the assistance of another human. Just lie back and let it pamper you. It is safe and easy to operate, and can save you a lot of money if you use it to replace those expensive, professional human massages. At RobotShop, we’ve got all you robotic needs covered (even the need to get massaged by a cute robot), this little massage robot is available for purchase immediately. Come get your WheeMe now.

RobotShop and DSPRobotics to Re-engineer FlowBotics Studio Posted: 22 Jan 2013 09:59 AM PST FlowBotics Studio V2 We announced today our strategic partnership with DSPRobotics. We aim to develop a new version of Flowbotics Studio that will no only include several sample programs for driving Lynxmotion kits, but also will allow roboticists to use the full power of the FlowStone visual language to program robotic behaviours. RobotShop announced today that they have formed a strategic partnership with DSPRobotics to redefine the software "FlowBotics Studio" to bring it to the next level with a plan to launch version 2 on May 24, 2013. In its current form, the FlowBotics software offers users a visual interface for controlling the popular LynxMotion robot arms. This software will stay as is and the name changed to "ArmControl". ArmControl will become one of many demo programs within the new "FlowBotics Studio", which will be a much more versatile software suite allowing users to easily control and experiment with many robotic platforms and/or hardware without prior programming or robotics experience. The new FlowBotics Studio will incorporate pre-made demo programs created using the FlowBotics / FlowStone software. The FlowStone software, on which FlowBotics is based, uses a combination of graphical and text-based programming. Applications are programmed by linking together functional building blocks called "components". Events and data flow between these components as the application executes. All this happens instantly – there’s no compiling; the application runs as it is built, making development an extremely rapid process. Executable programs which run on their own can also be created. "Following the recent acquisition of Lynxmotion, a leading manufacturer of educational robot kits, we knew we needed a powerful robotic software to help customers easily program, control and experiment with robotic platforms," said Mario Tremblay, founder and CEO of RobotShop. "DSP Robotics was the best possible partner for an alliance based on the potential of their software, their skill and knowledge as well as their desire to further expand into the robotics market. FlowBotics Studio is a modern and powerful software suite and will complement the Lynxmotion line of robot kits perfectly. The vision is not only to use FlowBotics Studio for Lynxmotion kits; with time we plan to integrate additional robots and parts from RobotShop's ever-growing product selection. You will be able to attach sensors and motors to a platform and have it running within minutes, or even remotely control and communicate with your Roomba or other domestic / professional robot. The vision is to offer one single robotics software suite capable of addressing all your needs, along with one source to purchase all your physical robots and parts. The missing part of the robot revolution has always been the software and the ability to easily develop complex programs. We envision FlowBotics Studio being this stepping stone". "FlowStone" is a proprietary computer programming language developed by DSPRobotics, a division of Outsim Ltd. This language was first commercialized in 2006 for the music industry to help create plug-ins. It has recently been adapted for the robotics/engineering/education market where Flowstone allows users to create their own stand-alone applications using its in-built components and modules, including the Ruby programming language. By building a hierarchy of modules, the user can quickly create complex behaviours to program almost anything. "We have made engineering programing languages for over ten years now and our most recent language, FlowStone, was used to create the original Flowbotics. This is now being used by over 12,000 students via Project Lead The Way to teach robotics," said DSPRobotics CEO Carl Owen. "Working with RobotShop to make this new and exciting generation of Flowbotics Studio, which actually has the complete FlowStone software built-in, makes the perfect software + hardware combination. We make programming languages that support literally thousands of hardware interfaces and robotics kits, and RobotShop not only owns LynxMotion, one of the industry leaders in the robotics field, but also sells hundreds of other hardware interfaces that will also work with FlowStone inside Flowbotics Studio. In the future this will mean that when you buy a robotic kit or hardware interface from RobotShop you will not only have a high-level application to control your hardware but also be able to drill down into the source code and make your own modifications and enhancements. We are very excited about working with RobotShop and look forward to a long and prosperous relationship." About RobotShop inc. RobotShop is the world’s leading robot store for personal and professional robot technology. It provides personal, domestic and professional robots, development platforms, kits, and specialized robotic parts. RobotShop is also an important source for robotics education and research. For more information on RobotShop, please visit http://www.robotshop.com About DSPRobotics (OutSim Ltd.) DSPRobotics is a leading software development company specializing in Graphical Programming Languages for engineering, education, and the music industry with over 10 years of experience in creating computer programming languages that are used all over the world, most famously the FlowStone programming language. For more information on DSPRobotics, please visit http://www.dsprobotics.com - RobotShop Press Release. As always, we invite you to share your thoughts in the comments below.

RobotShop Forced to Stop Selling and Supporting the Italian Lawnbott Robot Mower from Zuchetti Centro Systemi Posted: 18 Jan 2013 10:31 AM PST For those who remember back to 2004, RobotShop was the first company within North America to offer the Zuchetti Ambrogio Evolution Robot Lawn Mower. Later in 2005, Kyodo America (KA) made an alliance with Zuchetti and became the head of distribution in North America, re-branding the robot as the “LawnBott.” LawnBott robotic mower Since then, RobotShop has been loyal and has worked closely with KA to create brand awareness on the web and serve prospective as well as existing customers. We have helped increase the product’s visibility online, increase sales, manage recalls, perform repairs under warranty and more. Up until recently, KA’s strategy was to sell the product online as well as via “mom and pop” shops. Very few of these shops offered the quality of service, visibility and technical expertise of RobotShop. Unfortunately, sales of this robotic lawn mower have been relatively low, largely because of the high price point. A product’s popularity will always be relative to its price; Henry Ford taught us this almost a century ago with the Model T. KA thinks the problem of low sales is elsewhere and they have changed their strategy accordingly: they have started working with a network of pet containment companies (virtual dog fence dealers) and restrict Internet sales in those regions. They have asked RobotShop to monitor a growing list of zip codes where we can no longer sell their mower. What is the problem with that approach you ask? On the surface it may not look like a bad idea since those companies also use perimeter wire, transmitters and receivers which are the same as the robot mower uses. These companies likely already have the necessary resources including sales staff, technicians, tools and equipment to sell and support customers locally. KA has chosen a market geared toward dog owners The problem is that this is a short term vision to try to increase sales. We at RobotShop think that although it may be a good complementary option to selling robots online, it can never be a complete replacement. Trends show that people shop more and more online, and this will just increase in the future. With KA’s new approach, customers will not be able to find the Lawnbott online while their competition will be found on all major eCommerce web sites. Furthermore, dog fence retailers are not roboticists – even if you train them on the setup and installation of a specific robot. Technology is evolving fast and KA seems to think that robot mowers will always use the patented, sinusoidal signal based perimeter wire (a patent which is soon to expire). So it seems that KA is gambling their future in a network of brick and mortar stores and in the hands of dog fence pet retailers – to the blatant disregard of their long term partners. Here are some the questions we raised with KA when learning the news: “Does this current approach mean that KA does not want to protect the dealers you have been working with for years  – which have helped you make the product visible and available within North America? Once you have local dealers everywhere will you no longer supply internet distributors? What about customers who prefer purchasing products online? Will they will be unable to do so?” Here's the answer we received: “Internet sales were our Phase 1, and we need to go on to Phase 2 now which is a mix of local and internet sales as backup sales channel. It will takes several years or more for us to cover all of North America with local dealers, until then we definitely need internet sales to serve customers who have no local dealers around them.” So this is a direct, purely business, zero emotion, “stone-cold” answer, right? Translation: We are using you until we don't need you anymore. RobotShop is not a company like most others. We think there is a way to respect others even in business. RobotShop is here for the long run and we want to work with  manufacturers who want to build lasting and prosperous business relationships in order to offer the best selection of products, service and support to our customers. Trust is critical for lasting business relationships We hope you will understand that given KA’s current approach of increasingly restricting online sales and disregarding long-term  business relationships, we have chosen to no longer represent them and will stop selling and supporting the Lawnbott Brand. This is unfortunately the second time we have had to drop a robot mower manufacturer, the first being Friendly Robotics, largely because of product quality issues and severe lack of support from the manufacturer. But don't worry! We are seeing the emergence of several new manufacturers with new technology. Big names are starting to make their presence known in the robot lawn mower market and include brands like Honda, John Deere and Bosh. Stay tuned to RobotShop to get the best robot mowers and the best service. All LawnBott products are currently on sale and will be removed from RobotShop web sites once inventory is sold. As always, we will support all of our customers who bought (and intend to purchase) from us until the end of the product’s warranty period. We are asking the community what you think about KA's strategy? Is it good, bad or incomplete? What are your thoughts about the way they treat their long-term partners? Mario Tremblay CEO

Basics: How Do I Choose a Battery? Posted: 15 Jan 2013 08:33 AM PST Given the wide range of actuators and electronics which go into a robot, choosing the right battery may not be an easy task. This article guides you through the thought processes involved in choosing one or more batteries for your robot. Even if you are just starting in robotics, you may have already realized that the components you want to use don’t all operate at the same voltage. If you look at a production robot, you start to wonder “how is everything working off just one battery?”. There are two approaches taken, and we’ll help you determine which is best for you. Multiple Batteries Advantages Requires less design time Can be more efficient Disadvantages Various parts of the robot will stop working at different times Multiple batteries to recharge How do you know if you need multiple batteries? Check the nominal voltage of each of the products you selected: Electronics (microcontroller,  motor controller power etc) usually operate at 9V-12V. Some operate at low as 3.3V and 5V. Actuators (DC gear motors, stepper motors, servos etc) usually operate at 6V to 12V. A few operate as low as 3V Sensors usually operate 5V Based on the ranges above, it’s easy to see how, wen selecting optimal components for your project, that the voltage range may differ for each type of component. Fortunately most microcontrollers has a built-in voltage regulator which provides 5V to the I/O pins, so you don’t need a dedicated 5V battery. Should you choose a normal microcontroller, it’s likely that the voltage range is 9V  to 12V. Operating a normal hobby servo motor (rated at 4.8V to 6V) from a 9V to 12V battery would quickly burn it. What to do? The easiest option would be to use a smaller 12V battery for the microcontroller, and a larger 6V battery for the servos. One Battery Advantages One battery to charge Lighter weight Disadvantages (May) require voltage regulator A bit more complex to understand and wire Continuing the example above, where we chose a 12V microcontroller and 4.8V to 6V hobby servos, we have the option of using one (larger) 6V battery pack and a step-up voltage regulator. A voltage regulator does exactly as the name implies; it regulates the voltage. In our case we would need one which can accept 6V input and step it up to 12V. Choosing a lower motor voltage does not automatically mean the list of motors available to you will be low power. However, a high voltage motor (36V, 48V, 60V) tends to be reserved for large DC motors. The second approach is to first select the ideal motor and design your robot’s electronics system around the indicated nominal voltage. Both approaches have their advantages and disadvantages and it is up to you to choose which you prefer. Voltage dividers allow you to power electromechanical devices at different voltages. Voltage dividers are purely electrical devices with no programming involved. If you do not want to use voltage dividers, most electronics operate at 5 to 9V, so choosing either 6 or 9V as your robot’s supply voltage is the best choice (never assume an electronic device operates at 6 or 9V: you always need to read the supply voltage specifications for each electronic component). The other option is to use two different power supplies: one for the motors and another (smaller one) for the electronics. Should you wish to operate your robot at 9V, you can often still choose a 12V motor, though you must keep in mind the rpm will be less that that listed (estimated as a fraction of the nominal value) and the motor efficiency will be slightly reduced. Tips / Tricks Standard battery voltages are: 1.2V: one rechargeable NiMh AA or AAA battery (unless you want a really small robot, one cell does not do much) 1.5V: one Alkaline AA or AAA battery(disadvantage of not being rechargeable and can’t do much on its own) 2.4v: two rechargeable AA or AAA batteries; still can’t do much on their own, even for small robots 3V: two alkaline AA or AAA batteries; most microcontrollers cannot operate at this voltage, let alone most actuators. 3.6V: three rechargeable NiMh AA or AAA batteries; this is usually the minimum voltage to run certain microcontrollers 3.7V: one LiPo battery; this is close enough to 3.6V and is the minimum to run certain microcontrollers 4.5V: three alkaline AA or AAA batteries… why even consider non-rechargeable in robotics? 4.8V: four AA or AAA together provide the minimum voltage to operate a standard hobby servo motor. These can be either as individual cells or as a single rechargeable battery pack. 6V: four AA or AAA alkaline batteries, five rechargeable NiMh cells or one 6V rechargeable lead acid pack; this is the maximum (and ideal) voltage most hobby servos can handle. Use these if your servos need a bit more power. 7.2V: six AA or AAA rechargeable NiMh batteries is perfect for 7.2V DC gear motors. These are usually in a battery pack rather than as individual cells and you will need a more specific NiMh battery pack charger. 7.4V: two LiPo cells can often power a microcontroller and works great for 7.2V DC gear motors. Unfortunately it’s too high for most hobby servo motors. 7.5V: five alkaline AA or AAA: almost never used because it’s simply too many single-use batteries. 8.4V: 7x NiMh AA batteries (hard to find chargers for 7xAAA NiMh batteries). This is also not used much because it means charging 7 batteries at the same time. 9V: 6x Alkaline batteries, one 9V (NiMh or Alkaline) battery or one 9V lead acid batteru: please avoid using 6x alkaline for the sake of the environment. A 9V single cell rectangular battery is often used to power the microcontroller in dual battery configurations. 9V lead acid batteries are a bit harder to find and although they are quite heavy, are fairly inexpensive and high capacity. 9.6V: 7x NiMh cells, usually in a battery pack configuration. This is good for motors which operate at 9V, and also for microcontrollers (most can operate above 9V). 11.1V: three LiPo batteries produces almost 12V and is much lighter than 10x 1.2V cells or a 12V lead acid battery pack. You need a specific LiPo charger capable of charging 3 cell LiPo packs. 12V: 10x 1.2V cells (always configured as one NiMh battery pack) or one 12V rechargeable lead acid battery pack. 12V is ideal for a variety of DC gear motors and most microcontrollers. Anything above 12V is usually reserved for very large robots. If you have a 14.4V LiPo or 18V NiMh pack from a cordless drill, keep in mind that finding motors which operate at these voltages is not easy. Robots using servo motors (legged robots or robotic arms) tend to operate at 4.8V (4x AA NiMh cells) or 6V (5x NiMh AA cells). You can use a fairly inexpensive voltage regulator to power the microcontroller, increasing the voltage from 6V to 9V. Small to medium mobile robots often use a 6V, 9V or 12V NiMh battery pack, the choice of which depends on the nominal voltage of the drive motors. If the robot includes one or more servo motors (for a pan/tilt for example), the microcontroller can usually provide enough current from a 5V digital pin. If your microcontroller operates at 9V and you want to use 6V motors, you might consider a two battery solution. Medium sized mobile robots tend to use one 12V battery; lead acid or single NiMh battery pack (or an 11.1V LiPo battery if weight is an issue).  Large robots use 12V or 24V from one or more lead acid battery packs. Chemistry NiMh: This is by far the most common type of battery used in mobile robots. NiMh batteries are rechargeable and their value (price / capacity / weight) is hard to beat. There is almost no memory effect, meaning every charge should bring the battery up to full capacity. NiCd: These batteries are slowly disappearing because of their memory effect: if you don’t discharge the battery properly and then recharge it to full capacity, you lose part of the capacity each time. Alkaline: These are the least expensive batteries in the short term, and provide a higher voltage than NiMh, but are not great for the environment, and you constantly need to buy replacements. Lead Acid: Still the cheapest option for high capacity, lead acid is usually reserved for medium sized robots because of their incredibly high weight. LiPo: These are fast becoming the most popular type of battery because of their light weight, high discharge rates and relatively good capacity, except the voltages increase in increments of 3.7V, so you need to plan to use LiPo before selecting your electronics and actuators. Nominal Voltage A motor’s nominal voltage is the voltage at which the motor provides the best power output to efficiency ratio (rather than highest efficiency or highest power output). Operating a motor at the nominal voltage also helps to guarantee a long useful life. Capacity A battery’s capacity determines roughly how long a battery will last at a specific voltage given a specific discharge rate. For example, if you choose a 12V, 2Ah (2000mAh) battery pack (regardless of chemistry), the battery should be able to run a 12V motor consuming 2A continuously for 1 hour. Alternatively, it can run a 12V motor consuming 1A for 2 hours, or a 12V motor consuming 0.5A for 4 hours. The rule of thumb is to divide the capacity (assuming you are running an actuator at the same voltage) by the actuator’s current under normal load to get the time the motor will last. Example 1 2x Drive Motors: 6V nominal, 1A each under normal load 1x 6V NiMh Battery Pack, 2200mAh (equivalent to 2.2Ah) Note that the battery was chosen based on the motor’s nominal voltage.Should you instead operate 6V motors from a 7.2V battery, the calculations become more difficult (use the total watt-hours divided by the total watts per hour to get an idea). Therefore the 6V battery pack will last: 2.2Ah battery / (2 motors x 1A per motor) = 1.1 hours Example 2 18 servos used for a hexapod robot which operate at 6V nominal and consume 250mA under normal load* 1x 6V NiMh battery pack at 5Ah. First, we will assume that all motors are under load at all times (i.e. worst case scenario) and therefore all 18 will be consuming a total of 4.5A 5Ah battery / 4.5A = 1.1 hours Note again that the battery was chosen based on the motor’s nominal voltage. Discharge Rate The continuous discharge rate of a battery is very important because if you choose a battery that cannot discharge at the required current, the robot will either not work properly or not work at all. Example 1 You selected four 12V motors for your 4WD outdoor mobile robot. Each motor consumes 1A under normal load, and more in the case of a slope. You decide to choose a 12V, 2Ah NiMh battery pack, not caring about the continuous discharge rate. You discover that your robot stops when it encounters even the slightest obstacle or incline. Why? In this case operating all four motors consumes ~4A while an NiMh pack can only discharge at about 1.2 times the capcity (1.2 x 2Ah = 2.4A). The current draw from the motors is therefore higher than the battery can provide. Example 2 You selected two 7.2V DC gear motors which consume 1.5A each under normal load, and up to 2A each under stressful situations. This means that the battery needs to be able to provide at least 3A normally and up to 4A safely. If you choose an NiMh pack it would need to be 4A / 1.2C = 3.3Ah. The alternative would be to choose a LiPo pack because they can often discharge at 5C or higher, meaning you would be able to get away with a 4A / 5C = 0.8Ah pack. Granted the capacity is low, and you may opt for a higher capacity pack. Burst Discharge Rate

2008 Robot Hall of Fame Posted: 15 Jan 2013 08:31 AM PST The Robot Hall of Fame honors the highest accomplishments of robots in science and science fiction. Their first group of robots inducted into the Hall of Fame in November 2003 represents the best of imagined and real robots. The Hall of Fame celebrates landmark scientific achievements as well as applauding the creative impact of fictional robots. In spring 2009 The Robot Hall of Fame will have a permanent home at the Carnegie Science Center as part of their new roboworld robotics exhibit. 2008 Inductees LEGO MINDSTORMS: This building set combined programming bricks with electric motors, sensors and structural parts to create robots and other interactive systems. This building set combined programming bricks with electric motors, sensors and structural parts to create robots and other interactive systems. RAIBERT HOPPER: Experiments with this one-legged device in the early 1980's showed how a machine such as Data might someday walk with the agility of a human. NavLab 5: This robot was one of a series of autonomous vehicles (based around a Chevrolet Lumina)developed at Carnegie Mellon. Lt. CMDR DATA: Portrayed by actor Brent Spiner during the 1987-1994 run of "Star Trek: The Next Generation," Data was the chief operations officer of the U.S.S Enterprise and possessed both super strength and an encyclopedic memory. 2006 Inductees AIBO: In Japanese, AIBO means "companion." In English, AIBO is an acronym for "Artificial Intelligence BOt". In any language, the Sony AIBO represents the most sophisticated product ever offered in the consumer robot marketplace. SCARA: The first SCARA robot was created as a revolutionary prototype in 1978, in the laboratory of Professor Hiroshi Makino, at Yamanashi University in Japan. The 4-axis SCARA was designed as no other robot arm at the time. Its simplicity was brilliant … with less motion it could do more, with high speed and precision. DAVID: The character of David, in Steven Spielberg's movie Artificial Intelligence:AI (2001) challenges all of our preconceptions about robots. David is an android that looks like the world's most adorable ten-year old boy, with advanced artificial intelligence and the unique potential for an emotional relationship with a human being. MARIA: The robot MARIA stands apart as one of the only female robotic images of early science fiction. She appears in Metropolis, a science fiction film produced in Germany in 1927. The entire film is dominated by technology, with a mixture of images from the 1920s and futuristic devices. GORT: The robot Gort is one of the most memorable pop culture images from the Cold War era. Introduced in the 1951 movie classic The Day the Earth Stood Still, Gort comes to Earth as the killer robot bodyguard of the mysterious spaceman, Klaatu, who is on a mission of peace. 2004 Inductees ASIMO: ASIMO was introduced to the world October 31st, 2000. This engaging humanoid robot is the result of fifteen years of research and endeavor by Honda Motor Co., Ltd., a company dedicated to expanding and enhancing human mobility. SHAKEY: Shakey began in 1966 at the Stanford Research Institute (now SRI International). Over years of research, this ungainly “bot” developed into a milestone application of artificial intelligence and robotics. ASTRO BOY: ASTRO BOY, originally named Tetsuwan Atom, was created in 1951 by Japanese cartoonist and animator Osamu Tezuka, only six years after the end of World War Two. ROBBY THE ROBOT: Robby, the Robot made his first appearance in the 1956 MGM movie, Forbidden Planet. Robby is the film’s most memorable character and responsible for the cult status the movie enjoys. C-3PO: Of all the mythic STAR WARS movie characters, the one most like us is ironically a robot …C-3PO. 2003 Inductees HAL: The HAL 9000 Computer is a non-human and central character in the film by Stanley Kubrick and Arthur C. Clarke – 2001: A Space Odyssey. MARS PATHFINDER SOJOURNER ROVER: The Mars Pathfinder Sojourner was the first rover to explore the surface of Mars. For the first time, a thinking robot equipped with sophisticated laser eyes and automated programming reacted to unplanned events on the surface of another planet. R2D2: R2-D2 is the favorite robot of generations of Star Wars fans. It combines many of the most desirable attributes of synthetic creatures and as well as those of a perfect servant. His little 0.96-meter frame is packed with all sorts of tools that make him a great starship mechanic and computer interface specialist. UNIMATE: In 1961 the first industrial robot, Unimate, joined the assembly line at a General Motors plant to work with heated die-casting machines. Source: Robot Hall of Fame, viewed April 24, 2008 Find out more about and visit the Robot Hall of Fame at the Carnegie Science Center.

You are subscribed to email updates from RobotShop Blog To stop receiving these emails, you may unsubscribe now.	Email delivery powered by Google
Google Inc., 20 West Kinzie, Chicago IL USA 60610