Panasonic has introduced their smart cleaning robotic vacuum cleaner and have christened it, Rulo MC-RS1. The first triangular robotic vacuum cleaner in the market, the Rulo gives a new twist to the idea of a round vacuum cleaner that was characterized by the popular Roomba. The bottom portion of the cleaner will accommodate two side cleaning brushes for those difficult-to-access nooks and corners. The two long side brushes are flanked by a large main rotating brush, making it possible to collect maximum debris in a single sweep. The dust sensor on this one manages to detect the finest particles while the ultrasonic and infrared sensors in the front of the cleaner help it avoid obstacles. The Panasonic Rulo MC-RS1 is all about triangles and working your way around them. In fact, even the remote control on this one can help navigate the robot as well as toggle the start and stop functions. The robot will make your household cleaning chores look swag, just like Jesse Pinkman’s did.

It will set you back 100,000 Yen ($847) though. [ Via : Panasonic ]Vacuum cleaners are usually bulky things, with large elephant-like trunks and ends you need to push and pull, to guide all over the floor of your home. Robotic vacuum cleaners, however, don't need your supervision at all. This is what Panasonic just revealed. The device in the attached gallery bears the name of Rulo and is a vaguely triangular robotic vacuum cleaner. buy hitachi vacuum cleanerQuite a change from the usual round shape of such things.portable vacuum cleaner black decker Then again, it's not like there exist many automated vacuum cleaners in the world. mini vacuum cleaner in singaporeA case could be made for there not being enough to start a trend.

Still, the shape is not exactly the first you are likely to think of when hearing the words “robotic vacuum cleaner.” However, there is no denying that having one pointy end will make it easier to reach those corners where dust and grime would otherwise gather. And the Rulo has not one but three. Looking at it, you probably wouldn't think that it weighs only 6.6 pounds / 3 kilos, but that's all it needs. The low weight means that it can safely clean even tatami mats or other fragile types of floor coverings. The Japanese will definitely appreciate that (tatami mats are made of straw more often than not). There are rotating brushes on top of the three corners, which can reach all the way to the wall, as well as into other surfaces. The brushes force the dirt into the underbelly, where the main rotating cleaning mechanism is located. The air vacuum pulls all the tiny bits of refuse until there are none left. You'll still have to mop or otherwise wash the floor from time to time of course, but you won't need to bend, stretch or manually sweep your home again.

You might not be too glad to know that this is just a preview, but Panasonic understandably enough wanted to build some hype and attention before releasing its latest invention in the field of home appliances. The Panasonic Rulo vacuum cleaner will start selling in Japan for 107,780 yen (around $913 / €812) in March 2015. No word yet on when other regions of the world will see it. Panasonic Canister Vacuum Cleaner With a powerful motor and several cleaning attachments, this vacuum cleans hard floors with ease. This model does not have several features that most hardwood floor vacuums have. While this vacuum lacks features that protect hardwood floors, such as adjustable height settings and suction control, it effectively cleans bare floors. The Panasonic Canister Vacuum Cleaner MC-CL310 quickly and effectively vacuums hard floors. With an 11-amp motor, the vacuum relies on strong suction to pick up dirt, hair and food. In the tests we conducted, the vacuum impressively picked up all of the sawdust we scattered.

Over the years, the robot mainstream consisted of those built for manufacturing fields, which were mainly utilized in plant assembly lines. Today, however, rather than manufacturing as such, high expectations are being directed at efforts to robots in service industries; nursing care and medical services; infrastructure, disaster response and construction; and numerous other fields closely linked to our everyday lives. Behind this trend can be found the social issues of an aging population and labor shortages in the wake of Japan's "super-graying society." To find solutions for this situation, the Japanese government is positioning the upcoming five years as a so-called "concentrated robot revolution implementation period," with the public and private sectors joining forces to cultivate robotics into a genuine growth industry. According to estimates based on the 2012 Trend Survey on the Robot Industry Market (Ministry of Economy, Trade and Industry), Japan's domestic market for robots for use in conventional manufacturing sector secondary industries is predicted to grow to \1 trillion in 2018, and then expand some 1.5-fold to \1.5 trillion by 2024.

Compared to this, the agriculture-related robot market for primary industries is projected to chart rapid growth of 5 times, while the domestic market for tertiary industry service and distribution robots will expand 7-fold during the same period. As commercial business undertakings, Panasonic mounters, welding robots and other robotic products in the manufacturing field have already attained globally competitive industrial applications. At the same time, the company is now mobilizing fusions of its wide array of products and technologies as a driving force in the development and commercialization of robots designed to provide people with daily living and lifestyle assistance. The fields in which the expectations of society run high for creative applications of such robots include service industries; The robots mentioned here, based on the definitions of the Ministry of Economy, Trade and Industry, consist of intelligent machine systems equipped with capabilities in the following three categories:

"Sensors" serving to measure information related to objects of attention "intelligence and control" used to perform recognition and assessments based on the measured information "motors and other drive-train systems" for moving as the result of those assessments If equated to human beings, this can be said to apply to the respective functions of the eyes (measuring cognition), brain (intelligence), hands (manipulation) and legs (mobility). Let's explain these functions as they apply to the tomato-picking robot currently under development by the Panasonic Production Engineering Division. This robot is being perfected with the goal of automating the tomato harvesting work in greenhouses conventionally conducted by hand. Proving tests are currently underway at a large-scale farm in Japan. For the harvesting work, the first step is for cameras and range image sensors used in place of human eyes to detect each color, shape, position and other information about the tomatoes (measuring recognition).

For the tomatoes measured in this way, a program confirms the tomato color and harvesting feasibility with a manipulator, thereby forming intellectual assessments of the actual picking (intelligence). Once those steps are complete, a harvest manipulator developed to leave no scratches on the fruit is activated (manipulation). To efficiently pick tomatoes and other delicate, easily damaged fruits, a round manipulator is used to sever the small stems connecting each separate piece of clusters of fruits much like bunches of grapes, and carefully harvest them free of damage. This system functions by grasping the fruit and stems separately, then applying appropriate force to separate and detach them. The method was developed from meticulous studies of the picking motions practiced by human beings in the field. Moves are well underway to advance beyond robots used to perform conventional work in plants and other specified locations, including development of models for use in human activity spheres, as well as going on to furnish support in other aspects of everyday life.

The single most necessary phase of this evolution is to ensure human safety. ISO 13482, issued in February 2014, is the international safety standard for such daily life support robots. Panasonic participated in an international conference held to study the drafting of ISO 13482, and engaged in the formulation of this standard pertaining to global robot safety, furthermore becoming the first in the world to receive this certification. In addition, seeking to hammer out detailed safety standards for different genres of robots not fully covered under the provisions of ISO 13482, Panasonic joined with related manufacturers in preparing "JIS B 8446" - a Japan-specific industrial standard. Our plan is to make a proposal to the International Organization for Standardization to include this pioneering safety standard in the ISO framework, thereby empowering Japan to play a leading role in the international standardization of robots. As a manufacturer of consumer electronics, Panasonic has perfected an impressive assortment of technologies used to develop products that come into direct contact with people.

We also have top global level technologies and a reliable track record that have allowed us to participate in the creation of safety standards from the stance of a major Japanese company. Working from this solid foundation, Panasonic continues to pursue engineering progress structured to support the safety of robots built to exist in harmony with people as a core technology in its ongoing development of robotic excellence. Looking ahead, Panasonic will continue to endeavor from the solid foundation of its expertise in robotic component devices, safety-support technology and other inherent strengths, while strengthening the three key robot elements of vision, decision-making and mobility in spearheading new advances always rooted in the customer's perspective. The robots created through this formula will not be completed as single isolated units, but rather linked to telecommunications networks via information and communications technology, able to engage in various types of exchange with other machines through the Internet of Things, and loaded with smarter AI technology so as to "see," "think" and "move."

In this way, the Panasonic vision is to expand these exploits into wide-ranging daily life support fields as a solutions business for effectively addressing the issues faced by today's society. The debut of robots engineered to function in harmony with human beings can be traced back to around the year 2000. While there was a stance oriented toward development aiming for value creation at the time, it was not until around 2010 that development efforts started moving into workplace environments to thoroughly analyze actual work processes. This shift occurred as a result of the realization that the most important challenge for us was to truly understand what exact troubles our customers were encountering. With robots still far from truly disseminating worldwide, difficulties exist insofar as many customers have trouble envisioning just what robots can do for them. We will be moving to showcase prototypes and otherwise convey clear images of the cutting edge in robotics, while it will also be vital to foster the aptitude to run through single Plan-Do-Check-Act (PDCA) cycle as speedily as possible.

Takeshi Ando, Ph.D, Deputy Manager of Development Section 2, Robotics Promotion Office, Manufacturing Technology and Engineering Division Likewise, it is key to realize that robots are not single, self-contained units. They only pave the way to genuine value as solutions when they are successfully partnered networks and other devices, and integrated into systems through ICT and AI technologies. In that sense, what we should be pursuing is not the robot industry as such, but rather a solutions business in its own right. For its part, Panasonic has compiled a rich array of sophisticated technology through devices, creation of products interfacing with people as a manufacturer of consumer electronics and on other fronts. The company enjoys strength in its ability to strategically fuse numerous different technologies in pioneering the development of robots in wide-ranging fields. As we continue to forge ahead, with technologies ensuring the highest level of safety as our base, we aim to develop robotics technology and grow the robot business in a way that establishes a place for robots in harmony alongside people with safety and security--as a presence that offers people kindness and smiles, and that on both a physical and mental level draws closer to our lives.