{"id":1404,"date":"2018-12-04T09:33:56","date_gmt":"2018-12-04T09:33:56","guid":{"rendered":"http:\/\/www.gyanvihar.org\/journals\/?p=1404"},"modified":"2018-12-04T09:33:56","modified_gmt":"2018-12-04T09:33:56","slug":"cloud-computing-analysis-of-cloud-storage-in-robotic-environment","status":"publish","type":"post","link":"https:\/\/www.gyanvihar.org\/journals\/cloud-computing-analysis-of-cloud-storage-in-robotic-environment\/","title":{"rendered":"Cloud Computing: Analysis of Cloud Storage In Robotic Environment"},"content":{"rendered":"

1<\/sup>Tushar Gupta,2<\/sup>Sunil Yadav\u00a0<\/strong><\/p>\n

1<\/sup>Department Of Information and Technology,Gyan Vihar School of Engineering and Technology,Jaipur, India<\/p>\n

2<\/sup>Department Of Information and Technology,Gyan Vihar School of Engineering and Technology,Jaipur, India<\/p>\n

Abstract\u2014 Cloud is a well-designed data storage model\u00a0concerned with the storage of information on web. This model\u00a0has greatly revolutionized the robotic environment for learning\u00a0purpose. This paper will provide you an overview of how a\u00a0database in cloud is capable of storing knowledge resulted from\u00a0the combined effort of human as well as robot in robot\u00a0understandable open format that will support existing as well as\u00a0forthcoming robots learn faster. As such the robots will pick up\u00a0the aggregate knowledge from its environment and accumulate\u00a0the same in the cloud storage from where they get the support to\u00a0perform a set of tasks including navigation, task information like<\/strong>
\nhow to pick up an object, and object-recognition of data in order\u00a0to construct a map of the environment without having any\u00a0knowledge in advance, and to simultaneously confine itself in the\u00a0unknown environment through the process of learning.<\/strong><\/p>\n

Keywords\u2014cloud, storage, knowledge, robotics, robobrain,\u00a0rapyuta<\/p>\n

I. INTRODUCTION<\/p>\n

From the decades, it has been noticed that robots are\u00a0mainly empowered with programming embedded in a chip but
\na small defect could result into malfunctioning of the whole\u00a0unit and hence affect learning ability of robots. As such\u00a0certain mechanism is required that will provide guarantee in\u00a0terms of reliability, security and robustness. Due to great\u00a0processing power of cloud it paved the way as an appropriate\u00a0utility in Robotic Environment. Cloud robotics is one such\u00a0step taken towards, that has evolved idea of leveraging the\u00a0Internet for robots, and offers extraordinary opportunities for\u00a0robot learning. Instead of using the World Wide Web for rapid\u00a0communication or faster reckoning, a key factor is allow\u00a0robots to generate and collaboratively update shared\u00a0knowledge repositories. Such knowledge bases will power\u00a0robots to deal with the intricacies of human environments and\u00a0offer a simple yet powerful way for life-long robot learning.\u00a0[1] The goal of the European-Commission-funded initiative is\u00a0to develop proof-of-concept demonstrations that show how\u00a0cloud repositories like RoboEarth\u2019s databases can greatly\u00a0speed up robot learning and how they may ultimately allow\u00a0robots to perform well beyond their preprogrammed\u00a0behaviors. As such many AI Researchers are putting effort in\u00a0establishing a database in cloud which they called it\u00a0\u201cRoboBrain\u201d that will house all the information robots have\u00a0learned up till now and help them further their knowledge by\u00a0sharing that knowledge.
\nOn the developer\u2019s hand, they will have access to RoboBrain\u2019s\u00a0massive database, free of charge and wirelessly. [2] Aditya\u00a0Jami, from Cornell, who designed the database for RoboBrain\u00a0said this about it: \u201cThe RoboBrain will look like a gigantic,\u00a0branching graph with abilities for multi-dimensional queries.\u201d\u00a0By sharing parameters, data, files and everything else robots\u00a0have gathered till now, their developers will access and\u00a0automatize the process of robot\u2019s understanding of their locality\u00a0and ambiances, including speech and voice recognition,\u00a0grasping, navigating and perception of different objects. Year,\u00a02010 firstly marked the self-driving cars came in our lives which\u00a0afterwards tracked by RoboEarth (a kind of system which allow\u00a0robots to exchange knowledge among them).<\/p>\n

II. LITERATURE REVIEW<\/p>\n

A. Cloud Robotics <\/strong><\/p>\n

Cloud Robotics is a specialized application of cloud\u00a0computing that deals with the study of robots and their\u00a0environment. Due to cloud all the data will get stored on the web\u00a0which has greatly boosted the robots ability to perform all their\u00a0working by sharing experience with each other in order to\u00a0provide a precise response. Due to connection with cloud\u00a0network it is easier for robots to collaborate with other objects,\u00a0machines and human beings. At the same time, internet has\u00a0highly augmented the capabilities of robots by providing service\u00a0on demand and offload computation. Cloud robotics has greatly\u00a0overcome the problem of network robotics due to their resource,\u00a0information and communication constraints. With the arrival of\u00a0cloud robotics expenditure of maintenance and updates and\u00a0requirement of custom middleware has solved up to a great\u00a0extent.<\/p>\n

\"\"<\/p>\n

Robots are able to perform some computationally heavy tasks such as mapping, planning and probabilistic interference through the accessibility of huge computational infrastructure. RoboEarth is one such attempt that offers a cloud based infrastructure, and can help a robot to send some data to cloud and get the data back from the cloud in some other form. RoboEarth is a kind of database that stores the knowledge generated by either humans or robots but in a machine readable format. RoboEarth knowledge base is supposed to consist of a variety of data including task knowledge (e.g. manipulation strategies, action recipes etc.), several software components, maps for navigation (e.g. world models and location of objects), model that aids in recognition of different objects.(e.g. object models, images). Rapyuta which is also considered as the RoboEarth cloud engine is highly responsible for powerful computations to the robots. It is implemented as Platform-as-aService which is open source designed to suit robotics application. It enables the robots to unburden heavy computation to protect cloud\u2019s computing environment with marginal configuration. Rapyuta is considered to provide efficient access to the bandwidth which in turn provide access to the repository of knowledge on cloud and thus enabling robots to learn skills and share experience with other robots. The components of the cloud robotics are so well structured and interconnected that they provide the environment for the deployment of large robotic teams.<\/p>\n

B. Software Components<\/strong><\/p>\n

RoboEarth system is powered with the cloud infrastructure which in turn supported by RoboEarth databases and RoboEarth cloud engine (Rapyuta) in addition with several software components. Such software components are responsible to interact with the RoboEarth database in order to request and store data and can be set up for their execution in cloud engine or locally on the robot. In certain scenario these components can also be used independently<\/p>\n

\"\"<\/p>\n

Rapyuta<\/em><\/strong>: Rapyuta is a framework which is an open source framework having utility in cloud robotics. Figure 3 as given below provides a streamlined overview of the Rapyuta framework: Each robot attached to the Rapyuta is having a secured computing environment (rectangular boxes) enhancing their capability to transfer their heavy calculation into the cloud. Computing environment are interconnected in a wellstructured way and have a high bandwidth connectivity to the repository of knowledge as shown in the figure by stacked circular disks.<\/p>\n

\"\"<\/p>\n

RoboEarth DB: <\/em><\/strong>The Apache Hadoop based WWW- style database used to store essential data for the robots.<\/p>\n

KnowRob: <\/em><\/strong>It is a system involved in the processing of knowledge that groups reasoning methods and knowledge representation with several techniques for acquiring and embedding the knowledge in a physical system. It also serves as a framework that gathers knowledge from the various sources and is utilized in RoboEarth as a local knowledge base for robots.<\/p>\n

Object Adapter: <\/em><\/strong>These are the set of ROS packages that enables both robots and users to form a cloud model (point cloud\u00a0model) from an object making use of marker pattern, so that the resulting model can be stored in the RoboEarth\u2019s repository of knowledge, and allow to download the object models later and used them for detecting objects.<\/p>\n

WIRE: <\/em><\/strong>The WIRE stack allows to produce and retain one consistent world state estimate grounded on object detections. It is highly involved in the data association problem by maintaining multiple postulates and assists tracing of various object attributes.<\/p>\n

C2TAM: <\/em><\/strong>C2TAM implements a system called visual SLAM which is dependent upon a distributed framework where the storage and expensive map optimization is allocated on an external server, whereas a light camera tracking client executes on the local machine. The robot onboard computers are released from a burden of computation, with only internet connection being an extra requirement.<\/p>\n

III. APPLICATION OF CLOUD STORAGE IN ROBOTICS<\/p>\n

Cloud Based Robotics has proved to have a number of applications and advantages over the traditional networked based robotics.<\/p>\n