Mini-Case Facing Termination Essay Sample free essay sample

Why do you believe you made these errors? Please get down this instance treatment from the point of position that you are the chief character – that is you are the Vice President of Marketing. So you may get down the treatment get downing with â€Å"I am to fault for the current province of personal businesss because I did non understand †¦ † ( fill in why you are to fault. what did you non make and what did you make that helped make the current state of affairs ) I am to fault for the current province of personal businesss because I did non make plenty trial and deep probe for the new package plan. Honestly. I don’t cognize this package truly good. All I did merely bosom about some overstate characteristics from attender at the booth. read some stuff about it and called a twosome of friends who had installed it in their organisations. We will write a custom essay sample on Mini-Case Facing Termination Essay Sample or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page I even don’t cognize what is defect of this package and what should I make if the package failed to operation. I didn’t fix any program B for this elephantine plan. Blindness and rawness make me didn’t do adequate readying work. In add-on. I don’t have adequate protagonist or assistant. My co-worker. even when Jenny done to put in the package. seem non interested in this plan and really few people entree to seek. Confronting this negative attitude. I merely sit at that place and expect they will see the advantages of new gross revenues procedure alternatively of seek difficult to allow my co-worker cognize more about the new package. I was rely on IT excessively much and disregard how of import communicating with people. I supposed to larn a batch from Tom who is an first-class salesman and has broad societal web. I was merely believing he is old-fashion people but didn’t notice why he could be frailty president how was he persuade people. Besides. even myself. experience dry because I neer concern myself with all that techie computing machine material. If I couldn’t acquire into package. how I could advance this plan related to computing machine material. When Jenny working on accounting system. I supposed to delving why there was a batch of bombilation around their merchandise both at the conference and in the imperativeness. Besides. I should seek to work out those bombilatio ns which may go large issues what will face in the hereafter. Besides. there is a addendum. One of my mistake is I ignored the organisation civilization which is representative by Tom. who has immense personality and an unbelievable memory. He used phone calls. unit of ammunitions of golf. and birthday calls to lend personal networking. He had surrounded himself with really similar people like Joe who is one of veterans. They all agree this sort of gross revenues method is successful. My mistake is put new package plan on antonym of our organisation civilization. I didn’t combine new engineering and organization’s tradition together. That’s why people’s responds had been cool. I am to fault for the current province of personal businesss because I didn’t understand good about the undermentioned jobs. First of wholly. as a new promoted frailty president of selling. I didn’t achieve the great support from the best-performing sales representative to put in the new salesforce mechanization package and to utilize it. Although I have showed the booklet to them. I should attach the importance that they didn’t show their involvements really and I shouldn’t see that they will alter their head shortly. I shouldn’t think that they will accept the new salesforce mechanization tool as I. The veterans Joe didn’t like to utilize computing machine and had some bad attitude to me. I shouldn’t see that he will alter his head really promptly. The former frailty president Tom. who is an old-fashion sales representative with a immense personality. contributed a batch in the company’s early growing via personal networking a nd the surrounding co-workers are similar people really. Based on this consideration. I should recognize that it is really difficult to do them alter their head. And. the younger associate Amanda didn’t understand the system really clear. I should see more about this job and seek my best to do her understand the new salesforce mechanization tool clear. As a frailty president of selling. I should do salespeople understand what the new system is clearly. how to utilize it. and seek my best to acquire the support from them. However. I didn’t. If I achieved theirs back up really good. the plan may run better and the state of affairs may be different. What’s more. I made a critical error about Jenny Cantera. the really first IT manager with small experience in my house. I should recognize that she might do some error as a new IT manager with small experience. I shouldn’t swear her that much about the installing skill even though she looks smart and is good at engineering. However. she does non hold a batch of experiences. The accident may go on merely following 2nd. As a frailty president. it’s my mistake to believe a new manus. If I didn’t swear her that much. the state of affairs may be different. However. even though Jenny did her occupation truly good. I made a error on the clip. I shouldn’t allow the installing after three to four hebdomads. If I truly want to do net incomes relay on the new salesforce mechanization package rapidly. I should do the installing finished every bit shortly as possible. I shouldn’t accept this late installing. It is excessively late. My house spent a ample investing on the new package. I truly did a large error on the late installing. In brief. I did two critical errors this clip. I shouldn’t ignore the negative response from the sales representative. I shouldn’t believe the new IT manager that much. If I did better on these points. the state of affairs may be different. A successful plan is non merely trusting on single but besides the other sections of whole organisation. I blamed myself made immense error every bit good as others. There are a twosome of people I want to fault. Firstly. I want to speak about Jenny. I assigned undertaking to Jenny who is first IT manager in our house and had small experience in this place. She can’t give me critical advice and merely followed my measure. When I gave booklet to her. she didn’t do any deep research about new salesforce mechanization tool or halt me and merely told me it will necessitate one hebdomad to put in. She merely obeyed the order and neer thought. Then she postponed put ining my plan which spends ample investing of my house. She increased clip cost. She knew there are buzz exist but she merely ignored them and travel on. Besides. she installed package straightly for the whole system alternatively of making trial. She didn’t prepare plenty for issues round the corner. When she wrote the interface to the HR systems. all database broke lose. She was scrambling to convey it back up. Apparently she neer thought incident will go on. In add-on. I would fault my firm’s salesman. I understand Joe. who is veterans. doesn’t like me since I took his friend Tom’s topographic point and doesn’t agree computing machine can convey his more benefits. But the times are different. The markets were now planetary. When other firm’s sales representative contact abroad clients via IT support. our salesman merely aimed local clients can’t use our client base and convey us profit. We would lose excessively many clients and lose market fight without new engineering. Besides. I will fault the board that merely investing new plan but didn’t support my work really. They had been reasonably easy acceptance new proposal alternatively of cautious consideration. And after that. they should allow other sections corporate my occupation but they did non. A successful new plan demands selling. finance. human resources and accounting departmentsâ⠂¬â„¢ co-ordinate and communicating. non merely one individual.

Intelligence without representation The WritePass Journal

Intelligence without representation INTRODUCTION Intelligence without representation INTRODUCTIONWhat is Artificial IntelligenceBrooks’ ApproachTruly Intelligent Machine Conclusion ReferencesBibliographyRelated INTRODUCTION Professor Rodney Brooks’ vision is to create a truly intelligent machine without the aid of representation. He argued that when intelligence is approached in an incremental manner, with strict reliance on interfacing to the real world through perception and action, reliance on representation disappears. What is artificial intelligence? What is Brooks’ vision and his approach in achieving this? What constitute a truly intelligent machine? Is Brooks’ approach effective to create machines which are truly intelligent and what obstacles foreseen in his approach? What is Artificial Intelligence Artificial intelligence (AI) is the science and engineering of making intelligent machines, especially intelligent computer programs. It is related to the similar task of using computers to understand human intelligence, but AI does not have to confine itself to methods that are biologically observable. AI is  a field in computer science seeking to create a computer system capable of sensing the world around it, understanding conversations, learning, reasoning, and reaching decisions, just as would a human. AI is a combination of computer science, physiology, and philosophy. AI is a broad topic, consisting of different fields, from machine vision to expert systems. The element that the fields of AI have in common is the creation of machines that can think. In order to classify machines as thinking, it is necessary to define intelligence. To what degree does intelligence consist of, for example, solving complex problems, or making generalizations and relationships? Research into the areas of learning, of language, and of sensory perception has aided scientists in building intelligent machines. One of the most challenging approaches facing experts is building systems that mimic the behaviour of the human brain, made up of billions of neurons, and arguably the most complex matter in the universe. AI has come a long way from its early roots, driven by dedicated researchers. AI really began to intrigue researchers with the invention of the computer in 1943. In 1950, Alan Turing proposed a test for artificial intelligence in which a human being is asked to talk with an unseen conversant. The tester sends questions to the machine via teletype and reads its answers; if the subject cannot distinguish  whether the conversation is being held with another human being or a machine, then the machine is deemed to have artificial intelligence. No machine has come close to passing this test, and it is unlikely that one will in the near future. Researchers, however, have made progress on specific pieces of the artificial intelligence puzzle, and some of their work has had substantial  benefits. One area of progress is the field of expert systems, or computer systems designed to  reproduce the knowledge base and decision-making techniques used by experts in a given field. Such a system can train workers and assist in decision making. MYCIN, a program developed in 1976 at Stanford University, suggests possible diagnoses for patients with infectious blood diseases, proposes treatments, and explains its reasoning in English. Corporations have used such systems to reduce the labour costs involved in  repetitive calculations. A system used by American Express since November 1988 to advise when to deny credit to a customer saves the company millions of dollars annually. A second area of artificial intelligence research is the field of artificial perception, or computer vision. Computer vision is the ability to recognize patterns in an image and to separate objects from background as quickly as the human brain. In the 1990s military technology initially developed to analyze spy-satellite images found its way into commercial applications, including monitors for assembly lines, digital cameras, and automotive imaging systems. Another pursuit in artificial intelligence research is natural language processing, the ability to interpret and generate human languages. In this area, as in others related to artificial intelligence research, commercial applications have been delayed as improvements in hardware- the computing power of the machines themselves- have not kept pace with the increasing complexity of software. The field of neural networks seeks to reproduce the architecture of the brain- billions of connected nerve cells- by joining a large number of computer processors through a technique known as parallel processing. A fuzzy systems is a  subset of artificial intelligence research based on the assumption that the world encountered by humans is  filled with approximate rather than precise information. Interest in the field has been particularly strong in Japan, where fuzzy systems have been used in  different applications, from operating subway cars to guiding the sale of securities. Some theorists argue that the technical obstacles to artificial intelligence, while large, are not  attainable. A number of computer experts, philosophers and futurists have speculated on the ethical and spiritual challenges facing society when artificial intelligent machines begin to  mimic human personality traits, including memory, emotion, and consciousness. Brooks’ vision Professor Rodney Brooks stated in his report his approach of creating artificial intelligence as [1]: We must incrementally build up the capabilities of intelligent systems, having complete systems at each step of the way and thus automatically ensure that the pieces and their interfaces are valid. At each step we should build complete intelligent systems that we let loose in the real world with real sensing and real action. Anything less provides a candidate with which we can delude ourselves. He backed his approach by claiming to have [1] built series of autonomous mobile robots following this approach and made mention to have reached an unexpected conclusion (C) and have a rather radical hypothesis (H). (C)  Ã‚   When we examine very simple level intelligence we find that explicit representations and models of the world simply get in the way. It turns out to be better to use the world as its own model. (H)  Ã‚  Ã‚   Representation is the wrong unit of abstraction in building the bulkiest parts of intelligent systems. Brooks’ Approach Incremental Intelligence Brooks stated in his desire to build completely autonomous mobile agents that co-exist in the world with humans and they shall be seen by human beings as intelligent beings in their own right. He called such agents Creatures. He declared this as his intellectual motivation however, immediately declared his non-particular interest in demonstrating how human beings work. Having considered the parable of the AF researchers, he convinces himself to tread carefully in the endeavour to avoid some nasty pitfalls. He considered the problem of building these Creatures as an engineering problem. He then stated some of the requirements he needed in order to build these Creatures as: A Creature must cope appropriately and in a timely fashion with changes in its dynamic environment. A Creature should be robust with respect to its environment; minor changes in the properties of the world should not lead to total collapse of the Creatures behaviour; rather one should expect only a gradual change in capabilities of the Creature as the environment changes more and more. A Creature should be able to maintain multiple goals and, depending on the circumstances it finds itself in, change which particular goals it is actively pursuing; thus it can both adapt to surroundings and capitalize on fortuitous circumstances. A Creature should do something in the world; it should have some purpose in being. Having set out all the requirements he needed to build the Creature, he then considered some of the valid engineering approaches needed in achieving these requirements. He stated that it is [1] necessary to decompose a complex system into parts, build the parts, then interface them into a complete system. Decomposition by function Traditionally, the notion of intelligent systems has been of a central system with perceptual modules as inputs and action modules as outputs. The perceptual modules deliver a symbolic description of the world and the action modules take a symbolic description of desired actions and make sure they happen in the world. This makes the central system a symbolic information processor. Brooks argued that the central system be decomposed into smaller pieces. He also stressed that when researchers working on a particular module get to choose both the inputs and the outputs that specify the module requirements he believe there is little chance the work they do will fit into a complete intelligent system. He made mention of a bug in the functional decomposition approach which is hard to fix and admitted the need of a long chain of modules to connect perception to action. He rounded up decomposition by function saying these modules must be built first in order to test any of them but emphasis that until realistic modules are built it is highly unlikely that they can predict exactly what modules will be need or what interfaces the Creatures will need. Decomposition by activity This is an alternative decomposition aforementioned which makes no distinction between peripheral systems, such as vision and central systems. Rather the fundamental slicing up of an intelligent system is in the orthogonal direction dividing it into activity producing subsystems. Each activity or behaviour producing system individually connects sensing to action. This activity producing system is referred to as layer. An activity is said to be a pattern of interactions with the world. Another name for these activities is said to be skill. The word activity was chosen however, because the layers must decide when to act for themselves, not by some subroutine to be invoked at the beck and call of some other later. Brooks gave an advantage of this approach as giving an incremental path from very simple systems to complex autonomous intelligent systems. He stressed the necessity of building one small piece at each step of the way and interfacing it to an existing, working, complete intelligence. No Representation versus No Central Representation Another Brooks’ approach is to eliminate the idea of having a central representation or central system. He said and I quote â€Å"Each activity producing layer connects perception to action directly. It is only the observer of the Creature who imputes a central representation or central control. The Creature itself has none; it is a collection of competing behaviours. Out of the local chaos of their interactions there emerges, in the eye of an observer, a coherent pattern of behaviour. There is no central purposeful locus of control.†Ã‚   He claimed however, that there need be no explicit representation of either the world or the intentions of the system to generate intelligent behaviours for a Creature. He acknowledged the fact that an extremist might say that his approach do have representations however, swiftly defended his approach by claiming that are just explicit. He differentiates his approach from the standard representation by claiming; No variables need instantiation in reasoning processes. No rules which need to be selected through pattern matching. No choice to be made. To a large extent the state of the world determines the action of the Creature. The methodology, in practice In order for Brooks to build systems based on activity decomposition so that they are truly robust he stated that they must follow a careful methodology. Methodological maxims First, it is vitally important to test the Creatures they build in the real world; i.e., in the same world that we humans inhabit. He also point out that it is disastrous to fall into the temptation of testing them in a simplified world first, even with the best intentions of later transferring activity to an unsimplified world. With a simplified world (matte painted walls, rectangular vertices everywhere, colour blocks as the only obstacles) it is very easy to accidentally build a submodule of the system which happens to rely on some of those simplified properties. This reliance can then easily be reflected in the requirements on the interfaces between that submodule and others. Second, as each layer is built it must be tested extensively in the real world. The system must interact with the real world over extended periods. Its behaviour must be observed and be carefully and thoroughly debugged. When a second layer is added to an existing layer there are three potential sources of bugs: the first layer, the second layer, or the interaction of the two layers. Eliminating the first of this source of bugs as a possibility makes finding bugs much easier. Furthermore, there is only one thing possible to vary in order to fix the bugs- the second layer. Truly Intelligent Machine Conclusion References [1] Brooks, R. (1991). Intelligence without representation. Artificial Intelligence 47 , 139-159. Bibliography Kurzweil, Ray.  The Age of Spiritual Machines.  New York: Viking, 1999. Partridge, Derek.  A New Guide to Artificial Intelligence.  Norwood, N.J.: Ablex, 1991. Shapiro, Stuart C., ed.  Encyclopedia of Artificial Intelligence.  2d ed. New York: Wiley, 1992. Turbam, Efraim.  Expert Systems and Applied Artificial Intelligence.  New York: MacMillan, 1992. answers.com/topic/artificial-intelligence