Abstract—Robotics is a branch which relates to the manufacture of intelligence machines which are programmed for some specified activities which reduces the human effort. Nanotechnology is the study and design of synthesis of devices and systems at the nanometer scale.Nanorobotics is emerging of robotics with the nanotechnology. In other words nanorobotics is merging of microscopic scale with the nanometer. Nanorobotics can be merged with the nanosensors along with the artificial intelligence which have wide range of applications.
Keywords—nanbots,applications ,approaches,artificial intelligence
INTRODUCTION
Nano robotics is the process of merging the microscopic meter components called robots with the nanometer (10^-9 meters) components
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The manipulation of atoms, molecules and materials to form the structures normally from 1 to 100 nanometers. Nanotechnology consists of the technological developments based on the nanometer scale.
Nanotechnology has many an enormous number of technical applications. It comprises of developments on the one billionth of a meter(1nm=10^-9m).
Nano scale materials are proving attractive to a new generation of devices due to their unique properties. They are used to create fast responding sensors with good sensitivity and selectivity for the detection of chemical species and biological agents. Nanosensors for Chemical and Biological Applications provides an overview of developments brought about by the application of nanotechnology for both chemical and biological sensor development. Artificial intelligence(AI) is the intelligence which is exhibited by the machines.AI research is highly specialized, in the field of the communication. Some of the divisions in this field are due to social and cultural factors. These AI techniques are used in the machines to grab the data.
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Nanobots mainly consists of two words known as the Nano and Bots. Nano is the prefix which is known as dwarf known as extremely small. It may be measured in the word nanosecond ,which is one billionth of a second. The word bot here is the short form of the robots. Robots can be very useful in the situations where it is dangerous for the human being to work.
A Nanorobots is therefore a very tiny robot, which needs a microscope to see. Researches declared that the outer of the nanorobots is likely be constructed of the carbon atoms in the diamond structure. They will have a diameter of about 0.5 to 3 microns and will be constructed out of parts with dimension about 100 nanometers.
There are of two kinds of nanorobots; assembler and self replicators. Assembler are the nanorobots which are off different shapes and are able to combine the atoms and molecules of different shapes which can be controlled by specified programs. Self-replicators are a sort of assemblers that are capable of duplication and the construction of the large-scale application. Nanorobotics can play a major role in the field of medicine. It especially targets on the inventions into the human body through the vascular
The farming industry is all about sustainability and production. Farmers provides care to plants and making sure they receive the right amount of care in hopes that they will cultivate enough product that can be distributed around the world. The agricultural revolution which took place between 1860 and 1910 help push the industry forward by providing ways with technology to increase the rate of production by evolving from hand labor to machine labor. The goal of this research is to help push robotics into agriculture. With autonomous robots it will provide a way maintain order and consistency.
Atoms DBQ Atoms make up every object , substance, and material we know of(O.I). An atom is the smallest particle an element can be divided into. An atom has a complex structure, and the knowledge we have of it has changed many times throughout history. This tiny maze of parts has helped us learn important ideas about the structure and study of microscopic particles(O.I).
In David Brooks’ argument in “The New Romantics,” he explains the new romanticism that will come to our world in the near future. He thinks that computers are going to be able to do a lot of cognitive task that no human can compete with the computer. Even though humans are improving our cognitive skills, it will no longer good enough because the computer can be doing most of all things that human can not do well in coming future economy. Only humans are able to do is a task that is emotional. I agree with his argument.
Michael Crichton’s brilliant writing creates an excellent book that will keep any reader charm for hours on end. Prey has brought a new awareness to me of how quickly nanotechnology is developing
Force showed us a great many things about these robots, we still had to figure out a lot about them. We planned on planned on using a distance sensor for our robot, but we didn’t know which one that was, we didn’t know how to loop the whole sequence together, and we didn’t know how to download a WAV. Into our program to give our robot sounds. How a lady from Marshall came to our class and helped us get the sounds to work, Mr. Force came another day and helped us with sequencing the sensor, and the loop of the whole sequence we figured out ourselves by clicking a button at the top of the
Based upon the analysis, Parnas’ article is geared more towards people involved in the field of Artificial Intelligence where Eldridge’s article is geared towards people who are not necessarily knowledgeable about Artificial Intelligence yet are interested to learn more about the topic. Throughout the article, Parnas maintains the skeptical attitude towards Artificial Intelligence, literally ending with “Devices that use heuristics to create the illusion of Intelligence present a risk we should not accept” (Parnas, 6). Eldridge on the other hand, maintains a positive attitude throughout the article despite the shortcomings of AI. Together, both authors provide compelling arguments for and against Artificial
Hector Garcia Professor Sullivan English 102 2 November 2015 Artificial Intelligence: Annotated Bibliography Wallace, Brian. " The Economic Impact of Artificial Intelligence [INFOGRAPHIC]. " Social Media Today. Social Media Today, 21 May 2013.
Unlike a robot, Baymax can think and make decisions on his own. A team of medical researchers led by a biochemist named Peter Kim who works for the Children’s National Health System have developed a new robot called STAR (Smart Tissue Autonomous Robot). STAR can configure algorithms to decide where and how to place a suture in soft tissue specimens. This means STAR has the ability to calculate the algorithm to decide its next move. Although it is not the fasted method for placing sutures, STAR has produced more precise results than a human surgeon, laparoscopic or robot assistant surgery (Herkewitz, 2016).
A. Group Assignment a. Discuss the two data mining methodologies The process of going through massive sets of data looking out for unsuspected patterns which can provide us with advantageous information is known as data mining. With data mining, it is more than possible or helping us predict future events or even group populations of people into similar characteristics. Cross Industry Standard Process for Data Mining (CRISP-DM) is a 6-phase model of the entire data mining process which is commonly used across industries for a wide array of data mining projects and provides a structured approach to planning a data mining project. The 6 phases are: Business Understanding – Focuses and understand what the project objectives, requirements
Artificial Intelligence and its effect on the workforce Artificial intelligence(AI) is a recent reality of technological advancement affecting human society. To analyze its effect on the workforce we will look back in history for technological disruptions and how they affected the workforce and compare and contrast to the way AI is currently impacting and will continue impacting the human workforce and other aspects of human society such as economics, politics and the general environment. History Throughout history technological advancement has affected human society in its ways of living, working and its environment.
Artificial Intelligence is the field within computer science to explain some aspects of the human thinking. It includes aspects of intelligence to interact with the environment through sensory means and the ability to make decisions in unforeseen circumstances without human intervention. The beginnings of modern AI can be traced to classical philosophers' attempts to describe human thinking as a symbolic system. MIT cognitive scientist Marvin Minsky and others who attended the conference
An important feature of stimulation microelectrodes is its safe charge injection limit. The microelectrodes cannot exceed a certain limit of current density, otherwise gas evolution of oxygen or hydrogen may occur. Polycrystalline electrodes are limited to 5mC/cm2 whilst the conventional Tin electrodes have a safe limit of 20mC/cm2. The Au electrodes have a limit of 3mC/cm. However, polycrystalline electrodes can only cause an evolution when a negative potential is applied, thus demonstrating that these are well suited for the stimulation of electrogenic cells.
Many jobs have become easier by being replaced by robots. Robot are not just the idea of talking mechanical parts as we see in futuristic movies. There are a variety of different types of robotic machines, great majority of them appear in factories and in science technology work fields. Robots in factories help replace a dangerous parts of a job. However, there have been different perspective with robots replacing jobs.
Rise of Artificial Intelligence and Ethics: Literature Review The Ethics of Artificial Intelligence, authored by Nick Bostrom and Eliezer Yudkowsky, as a draft for the Cambridge Handbook of Artificial Intelligence, introduces five (5) topics of discussion in the realm of Artificial Intelligence (AI) and ethics, including, short term AI ethical issues, AI safety challenges, moral status of AI, how to conduct ethical assessment of AI, and super-intelligent Artificial Intelligence issues or, what happens when AI becomes much more intelligent than humans, but without ethical constraints? This topic of ethics and morality within AI is of particular interest for me as I will be working with machine learning, mathematical modeling, and computer simulations for my upcoming summer internship at the Naval Surface Warfare Center (NSWC) in Norco, California. After I complete my Master Degree in 2020 at Northeastern University, I will become a full time research engineer working at this navy laboratory. At the suggestion of my NSWC mentor, I have opted to concentrate my master’s degree in Computer Vision, Machine Learning, and Algorithm Development, technologies which are all strongly associated with AI. Nick Bostrom, one of the authors on this article, is Professor in the Faculty of Philosophy at Oxford University and the Director at the Future of Humanity Institute within the Oxford Martin School.
I do not believe the field has been developed to its potential in any regard, and feel that considerable progress can be made to improve the interactive experience that users have with an artificial intelligence application. This genuine intrigue combined with my curiosity for the subject matter and the limitless potential of the field are the reason why I wish to pursue a greater depth of knowledge in artificial