The Great Gatsby A World of Color Essay Example

The Great Gatsby A World of Color Essay Being rich does not me you are rich. In our world that is abundant with color, we as a society have become dull and do not notice the beauty in our creations. In The Great Gatsby, the characters are wealthy to no extent, but lack the sense of wealthy-ness in their body, soul, and mind and they cannot find a sense of happiness in anything. The input of color in The Great Gatsby written by F. Scott Fitzgerald is extravagant to say the least. Fitzgerald’s use of color is ample throughout the novel. The many colors used in the novel are meant to express emotions of the characters and convey the feeling of a scene. In this particular work of literature, the color green is used to symbolize hope. This quote shows the hope that Gatsby has for his relationship between Daisy and himself, â€Å"You always have a green light that burns all night at the end of your dock.’ Daisy put her arm through his abruptly, but seemed absorbed in what he had just said. Possibly it had occurred to him that the colossal significance of that light had now vanished forever† (Fitzgerald 92-93). In The Great Gatsby, the green light at the end of Daisy and Tom Buchanan’s dock symbolizes the hope that Gatsby still has to reunite Daisy and himself. Gatsby is still in love with Daisy and everything he does is to try to impress her. He knows that Daisy lives directly across the bay from his house which is the reason he moved into that house. Gatsby yearns for Daisy’s love and affection once again and reaches towards the green light at the end of the dock which shows his hope, â€Å"he stretched out his arms toward the dark water in a curious way, and, far as I was from him, I could have sworn he was trembling† (Fitzgerald 20-21). We will write a custom essay sample on The Great Gatsby A World of Color specifically for you for only $16.38 $13.9/page Order now We will write a custom essay sample on The Great Gatsby A World of Color specifically for you FOR ONLY $16.38 $13.9/page Hire Writer We will write a custom essay sample on The Great Gatsby A World of Color specifically for you FOR ONLY $16.38 $13.9/page Hire Writer Fitzgerald uses the clock to symbolize money, and more importantly, the desire Gatsby has to stop time; or rather to return to a time once lost. Ever since Gatsby had first met Daisy, he has tried desperately to become wealthy and be a go

The Road to a Mans Heart is Through His Stomach Essays

The Road to a Mans Heart is Through His Stomach Essays The Road to a Mans Heart is Through His Stomach Essay The Road to a Mans Heart is Through His Stomach Essay Essay Topic: The Road The way to every mans heart is through his stomach Ever since I was 13 years old, I have always wanted to be a chef. I have loved food with a passion, not Just food but also cooking It. My mother would teach me the basics when was young and I used to love to help her. She would tell me neat little tricks and I would listen very Intently. For years, my mother and I would serve dinner to our whole family and as the years progressed got better and better at cooking. My love also grew much stronger. Now I am a 30 year old professional chef working at one of the best hotels In the world. Pole would wonder how I became such a good chef Just from my mother teaching me the basics. The answer would be cooking classes. I always had a burning hunger to learn more and more. The only way I could become a great cook was by taking cooking classes. Being taught by people who have mastered the profession was just a great experience. There were so many little and big things tha t I learn. Certain tips and tricks no one can teach you except in proper cooking classes. The reason why I am where I am today is because of these classes. If you are looking to be a professional chef and serving world class food or Just want to learn cooking, I highly advise you to take these classes wherever you are in the world. Certain things can only be taught here and you can get hands on experience of everything. They definitely changed my life, and I am sure they will change yours too. If you are looking for cooking classes San Francisco, there are some really great options. Some of them are Hands on Gourmet located on 2325 3rd Street 330, is a cooking school and has restaurants. Here aspiring chefs can learn so much and learn more by looking at how professional chefs work at the restaurant. Another great option would be Lee Cordon Blue College of Culinary Arts which serves the whole San Francisco area. This Is one of the most reputed culinary schools to work at and Is hands down a great learning experience. Kitchen Affairs located on 550 S Van News Avenue Is also a great option for cooking classes San Francisco. Lastly Baking Arts located on 542 Brannon Street Is a great cooking class. Now If you live In the Seattle area, you do not eave to worry as there are some great cooking classes Seattle. Some of them are Blue Ribbon Cooking located on 2501 Falterer Avenue Is a great option. Also Deans Market Kitchen located on 1101 Post Avenue is a great place for also a great place with a nice environment for students to learn. These were some of the cooking classes Seattle. If you are aspiring to be a chef or Just want to learn cooking, taking a cooking class would be the best option for you.

Team DISC Assessment Coursework Example | Topics and Well Written Essays - 1250 words

Team DISC Assessment - Coursework Example Team building often involves the bringing together of new teams and giving them a new sense of direction, a period of getting to know their colleagues, as well as recognizing abilities and skills. Team working on the other hand involves the sharing of ideas, supporting one another and being open. It is also important to note that good leadership is essential to any business; it is an important factor for making an organization successful. Leaders are a key human resource in each and every organization (Hersen, 2004). In fact, the importance of leadership in management can never be overemphasized. In order for things to get done by people in the organization, the management must supply leadership in the organization. Team work is especially essential in order for one to realize the organizational goals, and it is the work of the managers to influence the team to work and accomplish through leadership. Further, it is imperative to understand that leadership often aids authority and it must go hand in hand with team work. Pursia’s DISC assessment was an impresser. This was her strongest quality. Being an impresser in the organization is extremely useful (Sugerman, 2011). This is because it helps one charm to the business partners as well as breaks the ice when it comes to meetings within the organization. Further, being an impresser is also important as it helps employees to take greater responsibility when it comes to decision making and also helps team members to take control of the work processes (Avery, 2001). The impresser often helps in improving morale as the employee can be able to effectively gain more authority as well as ownership over the projects that one is working on. With the help of the impresser, she can help with the extra responsibility which can effectively lead to a more rewarding work environment as well as lower turnover. Further, with the impresser working on a team it gives the employees a greater sense of belonging and

Proposal Argument Assignment Example | Topics and Well Written Essays - 1750 words

Proposal Argument - Assignment Example Data in support of more bicycle lanes V. The Safety Aspect of Bicycling a. How street bike lanes make city biking safer for all concerned b. The â€Å"Safety Numbers† effect VI. Conclusion More Bicycle Lanes Will Make Street Biking Safer and Reduce Street Biking Accidents Bicycles have been a standard mode of transportation for people far longer than the cars have been in existence. These bone shakers were the preferred method of the early Americans when it came to getting around their neighborhood on errands and trips to visit friends. It has always been considered one of the most cost - effective, if not the most cost effective ways of transportation because of the method by which the mode of transport works, it does not require the use of gasoline. Health experts have argued and defended the positive effects of bicycling on the health of people. Environmentalists have pointed out the advantages of bicycling in terms of nature preservation and reduction of gas emissions into the atmosphere. Yet with all of these expert opinions abounding, it seems that the local governments have chosen to turn a deaf ear to the fact that our city would greatly benefit from the expansion of the current number of bicycle lanes in the city to a number that would actually have a positive impact on the traffic situation in the city, and address the growing concern for the safety of the increasing number of cyclists in our city streets. We have grown up in a â€Å"car culture† society. This means that we looks towards our automotive vehicles as our primary and only mode of transport. our culture saw bike riders as a danger to the â€Å"open door† situation of cars that were parked along the curb of sidewalks where bicycles were relegated to in the absence of actual bicycle lanes. There was a real fear that the cyclists would damage the car doors by slamming into them and causing a serious roadside accident. But, according to the Boston Cyclists Union (â€Å"Bi ke Lanes, The Reasoning Behind Them and a Bit of Boston History†) ; A typical argument from this anti-bike-lane crew is that bike lanes put riders closer to or inside the door zone. The city of Cambridge’s 2005 Hampshire Street Study has been called the â€Å"nail in the coffin† of that argument. Instead of moving into the door zone after a new bike lane was installed, people moved further away from it... The average distance away from the cars increased by only 2.4 inches. But the distribution of distances narrowed, so far fewer riders rode really close to the doors and about 8 percent of riders moved completely out of the door zone. Typical biking accidents include off-road riding, trick riding or racing. Due to the fact that there are only limited bike lanes available in the city, cyclists have to battle for street space with the cars. Due to the nature of the vehicle, not much protection is offered to the cyclist in the event of an accident. Gathered informat ion about biking accidents from 2008-2009 show that in the city of Toronto, There were 2, 335 injured cyclists admitted to their emergency rooms (Badger, Emily â€Å"Dedicated Bike Lanes Can Cut Cycling Injuries in Half†). The results of the study in Canada which were published in the American Journal of Public Health further explained that these injuries were sustained on 14 different types of streets lanes. These street paths included (Schmitt, Angie â€Å"Study: Protected Bike Lanes Reduce Injury Risk Up to 90 Percent†

Analysis paper Coursework Example | Topics and Well Written Essays - 500 words

Analysis paper - Coursework Example The third, which was cheaper, was work sample test because it utilized $55000 to complete the process. The company should select the third method which work sample test because the company will utilize fewer resources as compared to the other methods. It will help the company to save resources to be used in other activities because the process used in all the three methods are the same and targets one objective of selecting 25 applicants. The best people to help the company in assessing the salesmen are the customers. They are the immediate people who know exactly what the salesmen are doing in the field in the process of selling the products. The company should conduct a survey using questionnaires issued to the customers with simple questions on the products, prices, quantity, and customer satisfaction. The questionnaire will ask the customer the products, prices, and quantity of the products, which will be compared with what is issued in the company. The company will know if the customers are overcharged, offered fewer quantities or a different product from those produced by the company. The questionnaires will help the company know if the customers are satisfied with the produce treatment and treatment by the salesmen. The customers will analyze the questionnaires and address any problem the customers are facing or make general improvements. The oil and gas company should survey on the rates of remuneration offered by the competitors to its employees in relation to education level and experiences. After the survey, the company will compare with its compensation to the employees and make slight adjustments in relation to its production costs. The adjustment will help the company to be externally competitive in the market. When it comes to market competition, the company should survey the prices of products offered by the competitors. The company will compare the prices, adjust the prices to more affordable, and influence

Reasoning in Artificial Intelligence (AI): A Review

Reasoning in Artificial Intelligence (AI): A Review 1: Introduction Artificial Intelligence (AI) is one of the developing areas in computer science that aims to design and develop intelligent machines that can demonstrate higher level of resilience to complex decision-making environments (Là ³pez, 2005[1]). The computations that at any time make it possible to assist users to perceive, reason, and act forms the basis for effective Artificial Intelligence (National Research Council Staff, 1997[2]) in any given computational device (e.g. computers, robotics etc.,). This makes it clear that the AI in a given environment can be accomplished only through the simulation of the real-world scenarios into logical cases with associated reasoning in order to enable the computational device to deliver the appropriate decision for the given state of the environment (Là ³pez, 2005). This makes it clear that reasoning is one of the key elements that contribute to the collection of computations for AI. It is also interesting to note that the effectiveness of the r easoning in the world of AI has a significant level of bearing on the ability of the machine to interpret and react to the environmental status or the problem it is facing (Ruiz et al, 2005[3]). In this report a critical review on the application of reasoning as a component for effective AI is presented to the reader. The report first presents a critical overview on the concept of reasoning and its application in the Artificial Intelligence programming for the design and development of intelligent computational devices. This is followed by critical review of selected research material on the chosen topic before presenting an overview on the topic including progress made to date, key problems faced and future direction. 2: Reasoning in Artificial Intelligence 2.1: About Reasoning Reasoning is deemed as the key logical element that provides the ability for human interaction in a given social environment as argued by Sincà ¡k et al (2004)[4]. The key aspect associated with reasoning is the fact that the perception of a given individual is based on the reasons derived from the facts that relative to the environment as interpreted by the individual involved. This makes it clear that in a computational environment involving electronic devices or machines, the ability of the machine to deliver a given reason depends on the extent to which the social environment is quantified as logical conclusions with the help of a reason or combination of reasons as argued by Sincà ¡k et al (2004). The major aspect associated with reasoning is that in case of human reasoning the reasoning is accompanied with introspection which allows the individual to interpret the reason through self-observation and reporting of consciousness. This naturally provides the ability to develop the resilience to exceptional situations in the social environment thus providing a non-feeble minded human to react in one way or other to a given situation that is unique in its nature in the given environment. It is also critical to appreciate the fact that the reasoning in the mathematical perspective mainly corresponds to the extent to which a given environmental status can be interpreted using probability in order to help predict the reaction or consequence in any given situation through a sequence of actions as argued by Sincà ¡k et al (2004). The aforementioned corresponds with the case of uncertainty in the environment that challenges the normal reasoning approach to derive a specific conclusion or decision by the individual involved. The introspective nature developed in humans and some animals provides the ability to cope with the uncertainty in the environment. This adaptive nature of the non-feeble minded human is the key ingredient that provides the ability to interpret the reasons to a given situation as opposed to merely following the logical path that results through the reasoning process. The reasoning in case of AI which aims to develop the aforementioned in the electronic devices to perform complex tasks with minimal human intervention is presented in the next section. 2.2: Reasoning in Artificial Intelligence Reasoning is deemed to be one of the key components to enable effective artificial programs in order to tackle complex decision-making problems using machines as argued by Sincà ¡k et al (2004). This is naturally because of the fact that the logical path followed by a program to derive a specific decision is mainly dependant on the ability of the program to handle exceptions in the process of delivering the decision. This naturally makes it clear that the effective use of the logical reasoning to define the past, present and future states of the given problem alongside the plausible exception handlers is the basis for successfully delivering the decision for a given problem in chosen environment. The key areas of challenge in the case of reasoning are discussed below (National Research Council Staff, 1997). Adaptive Software – This is the area of computer programming under Artificial Intelligence that faces the major challenge of enabling the effective decision-making by machines. The key aspect associated with the adaptive software development is the need for effective identification of the various exceptions and the ability to enable dynamic exception handling based on a set of generic rules as argued by Yuen et al (2002)[5]. The concept of fuzzy matching and de-duplication that are popular in case of software tools used for cleansing data cleansing in the business environment follow the above-mentioned concept of adaptive software. This is the case there the ability of the software to decide the best possible outcome for a given situation is programmed using a basic set of directory rules that are further enhanced using references to a variety of combinations that comprise the database of logical combinations for reasons that can be applied to a given situation (Yuen et al, 20 02). The concept of fuzzy matching is also deemed to be a major breakthrough in the implementation of adaptive programming of machines and computing devices in Artificial Intelligence. This is naturally because of the fact that the ability of the program to not only refer to a set of rules and associated reference but also to interpret the combination of reasons derived relative to the given situation prior to arriving on a specific decision. From the aforementioned it is evident that the effective development of adaptive software for an AI device in order to perform effective decision-making in the given environment mainly depends on the extent to which the software is able to interpret the reasons prior to deriving the decision (Yuen et al, 2002). This makes it clear that the adaptive software programming in artificial intelligence is not only deemed as an area of challenge but also the one with extensive scope for development to enable the simulation of complex real-world problem s using Artificial Intelligence. It is also critical to appreciate the fact that the adaptive software programming in the case of Artificial Intelligence is mainly focused on the ability to not only identify and interpret the reasons using a set of rules and combination of outcomes but also to demonstrate a degree of introspection. In other words the adaptive software in case of Artificial Intelligence is expected to enable the device to become a learning machine as opposed to an efficient exception handler as argued by Yuen et al (2002). This further opens room for exploring into knowledge management as part of the AI device to accomplish a certain degree of introspection similar to that of a non-feeble minded human. Speech Synthesis/Recognition – This area of Artificial Intelligence can be deemed to be a derivative of the adaptive software whereby the speech/audio stream captured by the device deciphers the message for performs the appropriate task (Yuen et al, 2002). The speech recognition in the AI field of science poses key issues of matching, reasoning to enable access control/ decision-making and exception handling on top of the traditional issues of noise filtering and isolation of the speaker’s voice for interpretation. The case of speech recognition is where the aforementioned issues are faced whilst in case of speech synthesis using computers, the major issue is the decision-making as the decision through the logical reasoning alone can help produce the appropriate response to be synthesised into speech by the machine. The speech synthesis as opposed to speech recognition depends only on the adaptive nature of the software involved as argued by Yuen et al (2002). This is due to the fact that the reasons derived form the interpretation of the input captured using the decision-making rules and combinations for fuzzy matching form the basis for the actual synthesis of the sentences that comprises the speech. The grammar associated with the sentences so framed and its reproduction depends heavily on the initial decision of the adaptive software using the logical reasons identified for the given environmental situation. Hence the complexity of speech synthesis and recognition poses a great challenge for effective reasoning in Artificial Intelligence. Neural Networks – This is deemed to be yet another key challenge faced by Artificial Intelligence programming using reasoning. This is because of the fact that neural networks aim to implement the local behaviour observed by the human brain as argued by Jones (2008)[6]. The layers of perception and the level of complexity associated through the interaction between different layers of perception alongside decision-making through logical reasoning (Jones, 2008). This makes it clear that the computation of the decision using the neural networks strategy is aimed to solving highly complex problems with a greater level of external influence due to uncertainties that interact with each other or demonstrate a significant level of dependency to one another. This makes it clear that the adaptive software approach to the development of the reasoned decision-making in machines forms the basis for neural networks with a significant level complexity and dependencies involved as argued by r efenrece8. The Single Layer Perceptions (SLP) discussed by Jones (2008) and the representation of Boolean expressions using SLPs further makes it clear that the effective deployment of the neural networks can help simulate complex problems and also provide the ability to develop resilience within the machine. The learning capability and the extent to which the knowledge management can be incorporated as a component in the AI machine can be defined successfully through identification and simulation of the SLPs and their interaction with each other in a given problem environment (Jones, 2008). The case of neural networks also opens the possibility of handling multi-layer perceptions as part of adaptive software programming through independently programming each layer before enabling interaction between the layers as part of the reasoning for the decision-making (Jones, 2008). The key influential element for the aforementioned is the ability of the programmer(s) to identify the key input and output components for generating the reasons to facilitate the decision-making. The backpropagation or backward error propagation algorithm deployed in the neural networks is a salient feature that helps achieve the major aspect of learning from mistakes and errors in a given computer program as argued by Jones (2008). The backpropagation algorithm in the multi-layer networks is one of the major areas where the adaptive capabilities of the AI application program can be strengthened to reflect the real-world problem solving skills of the non-feeble minded human as argued by Jones (2008). From the aforementioned it is clear that the neural networks implementation of AI applications can be achieved to a sustainable level using the backpropagation error correction technique. This self-correcting and learning system using the neural networks approach is one of the major elements that can help implement complex problems’ simulation using AI applications. The case of reasoning discussed earlier in the light of the neural networks proves that the effective use of the layer-based approach to simulate the problems in order to allow for the interaction will help achieve reliable AI application development methodologies. The discussion presented also reveals that reasoning is one of the major elements that can help simulate real-world problems using computers or robotics regardless of the complexity of the problems. 2.3: Issues in the philosophy of Artificial Intelligence The first and foremost issue faces in the case AI implementation of simulating complex problems of the real-world is the need for replication of the real-world environment in the computer/artificial world for the device to compute the reasons and derive upon a decision. This is naturally due to the fact that the simulation process involved in the replication of the environment for the real-world problem cannot always account for exceptions that arise due to unique human behaviour in the interaction process (Jones, 2008). The lack of this facility and the fact that the environment so created cannot alter itself fundamentally apart from being altered due to the change in the state of the entities interacting within the simulated environment makes it a major hurdle for effective AI application development. Apart from the real-world environment replication, the issue faced by the AI programmers is the fact that the reasoning processes and the exhaustiveness of the reasoning is limited to the knowledge/skills of the analysts involved. This makes it clear that the process of reasoning depending upon non-feeble minded human’s response to a given problem in the real-world varies from one individual to another. Hence the reasons that can be simulated into the AI application can only be the fundamental logical reasons and the complex derivation of the reasons’ combination which is dependant on the individual cannot be replicated effectively in a computer as argued by Là ³pez (2005). Finally, the case of reasoning in the world of Artificial Intelligence is expected to provide a mathematical combination to the delivery of the desired results which cannot be accomplished in many cases due to the uniqueness of the decision made by the non-feeble minded individual involved. This poses a great challenge to the successful implementation of AI in computers and robotics especially for complex problems that has various possibilities to choose from as result. 3: Critical Summary of Research 3.1: Paper 1 – Programs with Common Sense by Dr McCarthy The rather ambitious paper presented by Dr McCarthy aims to provide an AI application that can help overcome the issues in speech recognition and logical reasoning that pose significant hurdles to the logical reasoning in AI application development. However, the approach to the delivery of the aforementioned in the form of an advice taker is a rather feeble approach to the AI representation of the solution to a problem of greater magnitude. Even though the paper aims to provide an Artificial Intelligence application for verbal reasoning processes that are simple in nature, the fact that the interpretation of the verbal reasoning in the light of the given problem relative to an environment is not a simple component to be simulated with ease prior to achieving the desired outcome as discussed in section 2. â€Å"One will be able to assume that the advice taker will have available to it a fairly wide class of immediate logical consequences of anything it is told and its previous knowledge†. (Dr McCarthy, Pg 2). This statement by the author in the research paper provides room for the discussion that the advice taker program proposed by Dr McCarthy is aimed to deliver an AI application using knowledge management as a core component for logical reasoning. This is so because of the nature of the statement which implies that the advice taker program will be able to deliver its decision through access to a wide range of immediate logical consequences of anything it is told and its previous knowledge. This makes it clear that the advice taker software program is not a non-viable approach as the knowledge management strategy for logical reasoning is a component under debate as well as development over a wide range of scientific applications related problems simulation using AI. The Two S tage Fuzzy Clustering based on knowledge discovery presented by Qain in Da (2006)[7] is a classical example for the aforementioned. It is also interesting to note that the knowledge management aspect of artificial intelligence programming is mainly dependant on the speed related to the access and processing of the information in order to deliver the appropriate decision relative to the given problem (Yuen et al, 2002). A classical example for the aforementioned would be the use of fuzzy matching for validation or suggestion list generation on Online Transaction Processing Application (OLTP) on a real-time basis. This is the scenario where a portion of the data provided by the user is interpreted using fuzzy matching to arrive upon a set of concrete choices for the user to choose from (Jones, 2008). The process of choosing the appropriate option from the given suggestion list by the individual user is the component that is being replaced using Artificial Intelligence in machines to c hoose the best fit for the given problem. The aforementioned is evident in case of the advice taker software program that aims to provide a solution for responding to verbal reasoning processes of the day-to-day life of a non-feeble minded individual. The author’s objective ‘to make programs that learn from their experience as effectively as humans do’, makes it clear that the knowledge management approach with the ability of the program to utilise a database type storage option to store/access its knowledge and previous experiences as part of the process. This makes it clear that the advice taker software maybe a viable option if the processing speed related to the retrieval and storage of information from a database of such magnitude which will grow in size at an exponential rate is made available for the AI application. The aforementioned approach can be achieved by the use grid computing technology as well as other processing capabilities with the availability of electronic components at affordable prices on the market. The major issue however is the design for such an application and the logical reasoning processes of retrieving such information to arrive at a decision for a given problem. Form the discuss ion presented in section 2 it is evident that the complexity in the level of logical reasoning results in higher level of computation to account for external variants thus providing the decision appropriate to the given problem. This cannot be accomplished without the ability to deliver process through the existing logical reasons from the application’s knowledgebase. Hence the processing speed and efficiency of computation in terms of both the architecture and software capability is a question that must be addressed to implement such a system. Although the advice taker software is viable in a hardware architecture perspective, the hurdle is the software component that must be capable of delivering the abstraction level discussed by the author. This is because, the ability to change the behaviour of the system by merely providing verbal commands from the user which is the main challenge faced by the AI application developers. This is so because of the fact that the effective implementation of the aforementioned can be achieved only with the effective usage of the speech recognition and logical reasoning that is already available to the software for incorporating the new logical reason as an improvement or correction to the existing set-up of the application. This approach is the major hurdle which also poses the challenge of identifying the key speech patterns that are deemed to be such corrective commands over the statements’ classification provided by the user author for providing information to the application. Fr om the above arguments it can be concluded that the author’s statement – â€Å"If one wants a machine to be able to discover an abstraction, it seems most likely that the machine must be able to represent this abstraction in some relative simple way† – is not a task that is easily realisable. It is also necessary to address the issue that the abstractions that can be realised by the user can be realised by an AI application only if the application being used already has a set of reasons or room for learning the reasons from existing reasons prior to decision-making. This process can be accomplished only through complex algorithms as well as error propagation algorithms discussed in section 2.3. This makes it clear that the realization of the advice taker software’s capability to deliver to represent any abstraction in a relative simpler way is far fetched without the appropriate implementation of self-corrective and learning algorithms. The fact th at learning is not only through capturing the previous actions of the application in similar scenarios but also to generate logical reasons based on the new information provided to the application by the users is an aspect of AI application which is still under development but the necessary ingredient for the advice taker software. However, considering the timeline associated with the research presented by Dr McCarthy and the developments till date, one can say that the AI application development has seen higher level of developments to interpret information from the user to provide an appropriate decision using the logical reasoning approach. The author’s argument that for a machine to learn arbitrary behaviour simulating the possible arbitrary behaviours and trying them out is a method that is extensively used in the twenty-first century implementation of the artificial intelligence for computers and robotics. The knowledge developed in the machines programmed using AI is m ainly through the use of the arbitrary behaviours simulated and their results loaded into the machine as logical reasons for the AI application to refer when faced with a given problem. Form the arguments of the author on the five features necessary for an AI application hold viable in the current AI application development environment although the ability of the system to create subroutines which can be included into procedures as units is still a complex task. The magnitude of the processor speed and related requirements on the hardware architecture is the problem faced by the developers as opposed to the actual development of such a system. The author’s statement that ‘In order for a program to be capable of learning something it must first be capable of being told it’ is one of the many components of the AI application development that has seen tremendous development since the dawn of the twenty-first century (Jones, 2008). The multiple layer processing strategy to address complex problems in the real world that have influential variants both within the input provided as well as the output in the current state of AI application development is synonymous to the above statement by Dr McCarthy. The neural networks for adaptive behaviour presented in great detail by Pfeifer and Scheier (2001)[8] further justifies the aforementioned. This also opens room for discussion on the extent to which the advice taker application can learn from experience through the use of neural networks as an adaptive behaviour component for programming robots and other devices facing complex real-world problems. This is the kind of adaptive behaviour that is represented by the advice taker application by Dr McCarthy who described it nearly half a century ago. The viability of using neural networks to take comments in the form of sentences (imperative or declarative) is plausible with the use of the adaptive behaviour strategy described above using neural networks. Finally, the construction of the advice taker described by the author can be met with in the current AI application development environment although the viability of the same would have been an enormous challenge at the time when the paper was published. The advice taker construction in the twenty-first century AI environment can be accomplished using either a combination of computers and robotics or one of the two as a sole operating environment. So development of the AI application either using computers or robotics for the delivery of the advice taker is plausible depending upon the delivery scope for the application and its operational environment. Some of the hurdles faced however would be with the speech recognition and the ability to distinguish imperative sentences to declarative sentences. The second issue faced in the case of the advice taker will be the scope of application as the simulation of various instances for generating the knowledge database is plausible only withi n the defined scope of the application’s target environment as opposed to the non-feeble human mind that can interact with multiple environments at ease. The multiple layer neural networks approach may help tackle the problem only to a certain level as the ability to distinguish between different environments when formed as layers is not easily plausible without the knowledge on its interpretation stored within the system. Finally, a self-corrective system for AI application is plausible in the twenty-first century but the self learning system using the logical reasons provided is still scarce and requires a greater level of design resilience to account for input and output variants of the system. The stimulus-response forms described by the author in the paper is realisable using the multiple layer neural networks implementation with the limitation on the scope of the advice taker restricted to a specific problem or set of problems. The adaptive behaviour simulated using the neural networks mentioned earlier justifies the ability to achieve the aforementioned. 3.2: Paper 2 – A Logic for Default Reasoning Default reasoning in the twenty-first century AI applications is one of the major elements that attribute to the effective functioning of the systems without terminating unexpectedly unable to handle the exception raised due to the combination of the logic as argued by Pfeifer and Scheier (2001). This is naturally because of the fact that the effective use of the default reasoning process in the current AI application development environment aims to provide default reasoning when an exhaustive list of the reasons that are simulated and rules combinations are effectively managed. However, the definition of exhaustive or the perception of an exhaustive list for the development in a given environment is limited to the number of simulations that the users can develop at the time of AI application design and the adaptive capabilities of the AI system post implementation (refernece8). This makes it clear that the effective use of the default reasoning in the AI application development can be achieved only through handling a wide variety of exceptional conditions that arise in the normal operating environment for the problem being simulated (Pfeifer and Scheier, 2001). In the light of the above arguments the assertion by the author on the default reasoning as beliefs which may well be modified or rejected by subsequent observations holds true in the current AI development environment. The default reasoning strategy described by the author is deemed to be a critical component in the AI application development mainly because of the fact that the defaulting reasons are not only aimed to prevent unhandled exceptions leading to abnormal termination of the program but also the effective learning from experience strategy implemented within the application. The learn from experience described in the section 2 as well as the discussion presented in section 3.1 reveal that the assignment of a default reason for an adaptive AI application will provide room for identifying the exceptions that occur in the course of solving problems thus capturing new exceptions that can replace the existing default value. Furthermore, the fact that the effective use of the default reasoning strategy in AI applications also limits the learning capabilities of the application in cases where the adaptive behaviour of the system is not effective although preventing abnormal termination of the sys tem using the default reason. The logical representation of the exceptions and defaults and the interpretation used by the author to interpret the phrase ‘in the absence of any information to the contrary’ as ‘consistent to assume’ justifies the aforementioned. It is further evident from the arguments of the author that the default reason creation and its implementation into the neural network as a set of logical reasons are complex than the typical case wise conditional analysis on establishing a given condition holds true to the situation on hand. Another interesting factor to the aforementioned it the fact that the definition of the conditions must incorporate room for partial success owing to the fact that the typical logical approach of success or failure do not always apply to the AI application problems. Hence it is necessary to ensure that the application is capable of accommodating partial success as well as accounting for a concrete number to the given problem in order to gener ate an appropriate decision. The discussion on the non-monotonic character of the application defines the ability to effectively formulate the condition for default reasoning rather than merely defaulting due to the failure of the system to accommodate for the changes in the environment as argued by Pfeifer and Scheier (2001). Carbonell (1980)[9] further argues that the type hierarchies and their influence on the AI system have a significant bearing on the default reasoning strategies defined for a given AI application. This is naturally because of the fact that the introduction of the type hierarchies in the AI application will provide the application to not only interpret the problem against the set of rules and reference data stored as reasons but also assign it within the hierarchy in order to identify the viability of applying a default reason to the given problem. The arguments of Carbonell (1980) on Single-Type and Multi-Type inclusion with either strict or non-strict partiti oning justify the above-mentioned argument. It is further critical to appreciate the fact that the effective implementation of the type hierarchy in a logical reasoning environment will provide the AI application with greater level of granularity to the definition and interpretation of the reasons pertaining to a given problem (Pfeiffer and Scheier, 2001). It is this state of the AI application that can help achieve a significant level of independence and ability to interact effectively in the environment with minimal human intervention. The discussion on the inheritance mechanisms presented by Carbonell (1980) alongside the implementation of the inheritance properties as the basis for the implementation of AI systems in the twenty-first century (Pfeifer and Scheier, 2001) further justify the need for default reasoning as an interactive component as opposed to a problem solving constant to prevent abnorm

Exploring Methodological Individualism Essay -- Psychology

Exploring Methodological Individualism ABSTRACT: I defend the truth of the principle of methodological individualism in the social sciences. I do so by criticizing mistaken ideas about the relation between individual people and social entities held by earlier defenders of the principle. I argue, first, that social science is committed to the intentional stance; the domain of social science, therefore, coincides with the domain of intentionally described human action. Second, I argue that social entitites are theoretical terms, but quite different from the entities used in the natural sciences to explain our empirical evidence. Social entities (such as institutions) are conventional and open-ended constructions, the applications of which is a matter of judgment, not of discovery. The terms in which these social entities are constructed are the beliefs, expectations and desires, and the corresponding actions of individual people. The relation between the social and the individual 'levels' differs fundamentally from that bet ween, say, the cellular and the molecular in biology. Third, I claim that methodological individualism does not amount to a reduction of social science to psychology; rather, the science of psychology should be divided. Intentional psychology forms in tandom with the analysis of social institutions, unitary psycho-social science; cognitive psychology tries to explain how the brain works and especially how the intentional stance is applicable to human behavior. The principle of methodological individualism in the social sciences has its origin in the Austrian school of economics and was introduced into the philosophy of social science in general by Friedrich Hayek and Karl Popper. Hayek was the first to us... ... the Aristotelian Society 76, 1-27. Rosenberg, Alexander (1980), Sociobiology and the preemption of social science. Baltmore: Johns Hopkins University Press. Ruben, David-Hillel (1985), The metaphysics of the social world. London etc.: Routledge & Kegan Paul. Stich, Stephen (1983), From folk psychology to cognitive science. The case against belief. Cambridge, Mass./London: MIT Press. Thornhill, Nancy Wilmsen (1991), 'An evolutionary analysis of rules regulating human inbreeding and marriage', Brain and Behavioral Sciences 14, 247-261. Tuomela, Raimo (1984), A theory of social action. Dordrecht etc.: D. Reidel. — (1995), The importance of us. A philosophical study of basic social notions. Stanford, Cal.: Stanford University Press. Watkins, John (1952), 'Ideal types and historical explanation', British Journal for the Philosophy of Science 3, 22-43.