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Agents & Mobile Agents Agents • An agent is anything that can be viewed as perceiving its environment through sensors and acting upon that environment through actuators • • Human agent: eyes, ears, and other organs for sensors; hands, • legs, mouth, and other body parts for actuators • • Robotic agent: cameras and infrared range finders for sensors; • various motors for actuators • Agents and environments The agent function maps from percept histories to actions [f: P* A] The agent program runs on the physical architecture to produce f agent = architecture + program Vacuum-cleaner world Percepts: location and contents, e.g., [A,Dirty] Actions: Left, Right, Suck, NoOp Agents - what are they? Objects and Agents – An Analogy • Objects encapsulate state, Agents encapsulate state + execution behaviour • Objects have no control over the execution of methods • Invocation of method m on object o – involuntary – whether object o likes it or not Objects and Agents – An Analogy • Agents have control of whether or not to perform any given action • Request actions rather than invoke methods Microsoft Agent • persons Microsoft Agent Basic Definitions Rational agents An agent should strive to "do the right thing", based on what it can perceive and the actions it can perform. The right action is the one that will cause the agent to be most successful Performance measure: An objective criterion for success of an agent's behavior E.g., performance measure of a vacuum-cleaner agent could be amount of dirt cleaned up, amount of time taken, amount of electricity consumed, amount of noise generated, etc. Simple reflex agents Agents - Applications • many due to: – agent research spans disciplines: artificial intelligence, distributed computing, software engineering (ABSE), sociology, psychology, economics, object-oriented systems, artificial life, game theory, ... • a sampling... What is a Mobile Agent ? What is a Mobile Agent ? • Software program • Moves from machine to machine under its own control…. • Suspend execution at any point in time, transport itself to a new machine and resume execution • Once created, a mobile agent autonomously decides which locations to visit and what instructions to perform • Continuous interaction with the agent’s originating source is not required • HOW? – Implicitly specified through the agent code – Specified through a run-time modifiable itinerary Mobile Agent • Derives from AI and distributed systems • Agent that migrates under its own control in a heterogeneous environment • Mobility can be – Strong: move code with current execution state – Weak: move only code Agent Client Server Server Evolution • BOTTOMLINE: Mobile Agents are a distributed computing paradigm • End point in the incremental evolution of mobile abstractions such as mobile code, mobile objects, mobile processes. – Mobile Code – transfers code – Mobile Object – transfers code + data – Mobile Process – transfers code + data + thread state • Mobile Agent – transfers code + data + thread + authority of its owner Inter-Agent Message Passing - Requirements • Efficiency – Low location updating overhead – Low message delivery overhead • Asynchrony – Asynchronous execution – Little constraint on the mobile agent mobility. • Adaptability – Suit different Communication and Migration Pattern Inter-Agent Message Passing - Requirements • Location Transparency – Message sender does not need to know the physical location of the receiver agent, whose address changes frequently by moving from one host to another. • Reliability – The concurrent and asynchronous nature of message forwarding and agent migration may cause message loss or chasing problem. – By reliability we mean the message can reach the target agent by a bounded number of forwarding. RPC Vs Mobile Agents • Mobile Agents – Instead of calling a procedure, supply the procedure as well – Messages: Mobile Agent ( procedure + data + state) – “Sending” computer may have begun the procedure and the receiving computer will continue the procedure – On-going interaction, but NO on-going communication Mobile CLIENT network Service Agent SERVER Applets, Servlets and Mobile Agents • Applet – Downloaded from server to client • Servlet – Uploaded from client to server • Mobile Agents – Detached from client, can have multiple hops Advantages of the Mobile Agent Paradigm • reduce bandwidth consumption and network loads • allow dynamic deployment of application components to arbitrary network sites • encapsulate protocols • execute asynchronously and autonomously • can adapt by moving • run on heterogeneous platforms • most distributed applications fit naturally into the mobile agent model • intuitively suitable for mobile users and disconnected operations • Mobile agents combine the strengths of techniques such as RPC, java applets etc. into a single, convenient framework Levels of Mobility • Weak Mobility – When moving a mobile agent carries code + data state – On moving, execution has to start from the beginning Levels of Mobility • Strong Mobility – When moving a mobile agent carries code + data state + execution state – Execution State – local variables and threads – On moving, execution can continue from the point it stopped on the previous host MAP MAP MAP MAP Design of ARP (Adaptive and Reliable Protocol) • • • • Mobile IP solution Extention1: Mobile IP + Synchronization Extension2: Distributed Home Scheme Extension3: Mailbox-Based Scheme = ARP Mobile IP Solution MAP MAP-Home Reg MAP MAP Design of ARP • Mobile IP solution – No Reliability Support • Extention1: Mobile IP +Synchronization – The agent home coordinates message passing and agent migration • Extension2: Distributed Home Scheme • Extension3: Mailbox-Based Scheme = ARP Mobile IP + Synchronization MAP MAP-Home Dereg ACK MAP Reg MAP Mobile IP + Synchronization MAP MAP-Home Dereg ACK MAP Reg MAP Caching Mechanism MAP-1 MAP-2 MAP-3 Properties of ARP • Location Transparency – Home + Caching Mechanism • Reliability – Synchronization is used • Asynchronous Migration • Adaptability – Mobile IP + Synchronization – Distributed Home Scheme • Efficiency IBM’s Aglet Toolkit An Applet-like programming model for mobile agents Java (as many mobile agent toolkits are! ) Aglet = Agent + Applet Aglet’s API facilitates mobile technology Aglet: mobile java object that visits aglet enabled hosts in a computer network An Aglet = Instance of a Java class extending the Aglet Class IBM’s Aglet Toolkit • An Aglet =Aglet state (values in variables) + Aglet code (class implementation) • Autonomous – runs its own thread after arriving at a host • Reactive – responds to incoming messages • Weak Mobility Thank you for lessening