IEEE在线技术课程

2020-03-06

 

访问网址:https://ieeexplore.ieee.org/Xplore/home.jsp

为保证浏览的顺畅请使用谷歌或火狐浏览器。

 

身份认证:

1、如在校园网内,直接访问即可。

2、如在校外,则需要通过shibboleth认证,请点击“Institutional Sign In”,在后续的界面中选择学校名称,通过科大统一身份认证输入自己的账号即可。

 

课程登录:

1、点击首页左上角“Browse”菜单下“Courses”;

2、点击页面中的“All Subscribed Courses”,查看所有贵可访问的在线课程。

 

本次IEEE为中国高校及政企机构IEEE数据库用户提供的在线学习课程,至少会持续到3月31日。

本次限免活动,IEEE共开放60多个在线学习课程,这些精挑细选的课程涵盖了人工智能、自动驾驶、区块链、物联网、边缘计算、网络安全等等一系列目前科技领域比较前沿的技术点IEEE希望此次在线课程的限免活动能帮助广大科研工作者及在校师生,获得更多的科研信息,提高科研效率。诚如IEEE的宣言:Advancing technology for humanity (为人类推动科技进步),正是您在科研和技术上的每一点突破让这个世界变得更加美好!多难兴邦,在这个特殊的时期,我们愿和您一起共渡难关!

编号 课程名称 课程内容介绍 课程链接地址
EDP229 Engineering Ethics: Biomedical Engineering Engineers are trained to think analytically and base their technical decisions on relevant facts and research. Nonetheless, engineers will encounter many situations involving ethical questions during their careers. In order to improve their ability to make ethical decisions engineers require additional tools and training. These include an understanding of the relevant codes of ethics and learning to recognize ethical challenges and solutions through a case study approach. In this course the author discusses two codes of ethics that biomedical engineers can use as a reference when they confront ethical questions in professional situations. The author also provides a guided review of ethical decision-making using a case study in biomedical engineering. Several suggestions and additional references for improving ethical decision-making are offered. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1229
EDP230 Engineering Ethics: Building a Strong Foundation Engineers are trained to think analytically and base their technical decisions on relevant facts and research. Nonetheless, engineers will encounter many situations involving ethical questions during their careers. In order to improve their ability to make ethical decisions engineers require additional tools and training. These include an understanding of the relevant codes of ethics and learning to recognize ethical challenges and solutions through a case study approach. In this course the author discusses how people commonly understand the definition of ethics and reviews the IEEE Code of Ethics. The author also provides a guided review of ethical decision-making using two case studies. Three historical approaches to ethical decision-making are also introduced. The author provides several suggestions and additional references for improving an engineer’s ability to recognize, understand and respond to ethical challenges in professional situations. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1230
EDP231 Engineering Ethics: Power Engineering Engineers are trained to think analytically and base their technical decisions on relevant facts and research. Nonetheless, engineers will encounter many situations involving ethical questions during their careers. In order to improve their ability to make ethical decisions engineers require additional tools and training. These include an understanding of the relevant codes of ethics and learning to recognize ethical challenges and solutions through a case study approach. In this course the author discusses the IEEE Code of Ethics that engineers can use as a reference when they confront ethical questions in professional situations. The author also provides a guided review of ethical decision-making using a case study in power engineering. Several suggestions and additional references for improving ethical decision-making are offered. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1231
EDP232 Engineering Ethics: Software Engineering Engineers are trained to think analytically and base their technical decisions on relevant facts and research. Nonetheless, engineers will encounter many situations involving ethical questions during their careers. In order to improve their ability to make ethical decisions engineers require additional tools and training. These include an understanding of the relevant codes of ethics and learning to recognize ethical challenges and solutions through a case study approach. In this course the author discusses two codes of ethics that software engineers can use as a reference when they confront ethical questions in professional situations. The author also provides a guided review of ethical decision-making using a case study in software engineering. Several suggestions and additional references for improving ethical decision-making are offered. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1232
EDP233 Solving Ethical Dilemmas as an Engineer Engineers are trained to think analytically and base their technical decisions on relevant facts and research. Nonetheless, engineers will encounter many situations involving ethical questions during their careers. In order to improve their ability to make ethical decisions, engineers require additional tools and training. These tools include an understanding of the relevant codes of ethics and learning to recognize ethical challenges and solutions. In this course the author discusses definitions of ethics and three historical approaches to understanding ethical behavior: virtues ethics, consequentialism and deontology. Two codes of ethics that software engineers can use as a reference when they confront ethical questions in professional situations will also be presented. The author provides a guided review of ethical decision-making using two case studies. Several suggestions and additional references for improving ethical decision-making are offered. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1233
EDP275 Engineering Ethics: Topics for Government Engineers This course is designed to introduce engineers who work for governmental bodies to ethical considerations and codes of ethics. Dr. Starrett discusses the special ethical challenges engineers in this sector may encounter and suggests sources and methods government engineers may find useful in deciding how to handle ethical dilemmas. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1275
EDP276 Engineering Ethics: Case Study in Biomedical Research This course is designed to introduce engineers in the biomedical field to ethical considerations (e.g., use of human subjects in research) related to practice in this field. Dr. Starrett reviews the Biomedical Engineering Society Code of Ethics and discusses a case study involving fabricated data and other ethical transgressions of a noted researcher. He focusses on the ethical principles that were violated in this example and offers suggestions on how biomedical engineers can avoid making similar errors. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1276
EDP277 Engineering Ethics: Topics for Robotics and Automation Engineers This course is designed to introduce engineers who work in the fields of robotics and automation to ethical considerations and codes of ethics. Dr. Starrett discusses the principles of the IEEE Code of Ethics as well as another code of ethics written specifically for robotic engineers. He also reviews current ethical challenges associated with work in these fields, including those associated with military use of unmanned surveillance systems and automated weapons. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1277
EDP278 Engineering Ethics: How to Mentor New Professionals This course is designed to assist those who work with engineering professionals who are new to the field in navigating ethical dilemmas. Engineers who are just entering the profession will inevitably confront ethical challenges in their work. Supervisors and more experienced colleagues can help new engineers handle these challenges successfully by discussing codes of professional ethics as well as sharing their experiences in resolving ethical dilemmas. Dr. Starrett reviews the IEEE Code of Ethics in depth and explains methods traditionally used to make ethical decisions. The author suggests that viewers consider ethical challenges they have encountered professionally and review their responses in light of the ethical principles presented in order to derive maximum benefit from the course. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1278
EDP279 Engineering Ethics: Guidance on Sustainability This course is designed to introduce engineers whose work deals with issues of sustainability to ethical considerations and the IEEE Code of Ethics. Dr. Starrett defines sustainable engineering as the process of using energy and resources at a rate that does not compromise the natural environment, or the ability of future generations to meet their own needs. He reviews two codes of ethics (the IEEE Code of Ethics and the ASCE Code of Ethics) that can provide guidance for engineers faced with ethical dilemmas in this area. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1279
EDP280 Engineering Ethics: Case Study of DeKort and the US Coast Guard In this course Dr. Starrett reviews the IEEE Code of Ethics and introduces a case study of an engineer confronted by an ethical dilemma involving a project for the US Coast Guard. DeKort’s dilemma is described in detail and Dr. Starrett discusses the turning points in DeKort’s handling of the situation. The learner is asked to suggest the best course of action and to cite the relevant principles from the IEEE Code of Ethics. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1280
EDP281 Engineering Ethics: Ethical Challenges for Military Engineers This course is designed to introduce engineers who work in the military to ethical considerations and the IEEE codes of Ethics. Dr. Starrett discusses the special ethical challenges engineers in this sector may encounter and suggests sources and methods military engineers may find useful in deciding how to handle ethical dilemmas. He also reviews a case study of an Army engineer confronting a professional ethical dilemma. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1281
EDP418 IEEE English for Engineering: Listening Introductory Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Listening is an important skill to master, and particularly in our professional lives, we need to obtain and respond to information which is communicated to us this way. After completing this Introductory course, you will be able to understand fundamental technical concepts at a high level when spoken in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1418
EDP419 IEEE English for Engineering: Listening Intermediate Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Listening is an important skill to master, and particularly in our professional lives, we need to obtain and respond to information which is communicated to us this way. After completing this Introductory course, you will be able to understand fundamental technical concepts at a high level when spoken in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1419
EDP420 IEEE English for Engineering: Listening Advanced Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Listening is an important skill to master, and particularly in our professional lives, we need to obtain and respond to information which is communicated to us this way. After completing this Intermediate course, you will be able to understand technical concepts spoken in English at a more detailed level. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1420
EDP421 IEEE English for Engineering: Speaking Introductory Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Listening is an important skill to master, and particularly in our professional lives, we need to obtain and respond to information which is communicated to us this way. After completing this Advanced course, you will be able to understand complex technical concepts spoken in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1421
EDP422 IEEE English for Engineering: Speaking Intermediate Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Communicating requires speaking skills that encourage people to listen, engage, and consider the information you are sharing with a view to doing something with it. Strong speaking skills will help you participate in business meetings and conferences, talk to colleagues, and communicate with people around the world. After completing this module, you will be able to talk about fundamental technical concepts at a high level using basic technical vocabulary in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1422
EDP423 IEEE English for Engineering: Speaking Advanced Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Communicating requires speaking skills that encourage people to listen, engage, and consider the information you are sharing with a view to doing something with it. Strong speaking skills will help you participate in business meetings and conferences, talk to colleagues, and communicate with people around the world. After completing this module, you will be able to talk about technical concepts using an expanded vocabulary of technical terms in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1423
EDP424 IEEE English for Engineering: Reading Introductory Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Communicating requires speaking skills that encourage people to listen, engage, and consider the information you are sharing with a view to doing something with it. Strong speaking skills will help you participate in business meetings and conferences, talk to colleagues, and communicate with people around the world. After completing this module, you will be able to talk about complex technical concepts using a large vocabulary of technical terms in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1424
EDP425 IEEE English for Engineering: Reading Intermediate Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Reading is a fundamental component of professional communication skills. To function adequately in our busy, technology-driven society, you must possess the basic skill of reading.After completing this module, you will be able to understand fundamental technical vocabulary terms and concepts in English in the context of engineering applications. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1425
EDP426 IEEE English for Engineering: Reading Advanced Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Reading is a fundamental component of professional communication skills. To function adequately in our busy, technology-driven society, you must possess the basic skill of reading. After completing this module, you will be able to understand an expanded vocabulary of technical terms in English in the context of engineering publications. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1426
EDP427 IEEE English for Engineering: Writing Introductory Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Reading is a fundamental component of professional communication skills. To function adequately in our busy, technology-driven society, you must possess the basic skill of reading. After completing this module, you will be able to understand a large vocabulary of technical terms and complex technical concepts in English in the context of engineering publications. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1427
EDP428 IEEE English for Engineering: Writing Intermediate Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Writing skills are essential for achieving career and business goals.After completing this module, you will be able to use fundamental vocabulary terms to describe technical concepts at a high level in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1428
EDP429 IEEE English for Engineering: Writing Advanced Level Engineering professionals are highly skilled and knowledgeable in engineering and technology. However, some engineers who speak English as a second language may experience difficulty in professional communication skills. This can make it impossible to publish in major journals, participate in international conferences, or communicate effectively with other professionals. Writing skills are essential for achieving career and business goals.After completing this module, you will be able to use expanded vocabulary of technical terms with little use of the aid of glossary definitions and to describe technical concepts at a more detailed level in English. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1429
EDP445 Ethics in Standards Development and Application Understand the role ethics plays in standards development and application as well as what questions to ask when deciding whether or not a decision is ethical. Learn what options you have when faced with a standards related ethical dilemma and what resources are available to assist you in making ethical decisions.  Gain an understanding of the different possible types of standards abuse and learn about real-life examples of the effects of bad ethical decisions in standards related situations. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1445
EDP446 How to Read a Standard This eLearning module will help you to gain an understanding of what is a standard, why standards are important, and how to understand the contents of a standard.

You’ll learn who uses engineering standards and why. Descriptions of the different components of a standard and what is contained in each section are provided along with actual examples from IEEE Standards. The “language of standards” is also discussed to provide the reader with guidance on the nuances of using certain words over others in the context of a standard.

https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1446
EDP453 Web Server and Web Application Security Web server and Web application security is the protection of information assets that can be accessed from a Web server or application. Security is important for any organization that has a physical or virtual Web server connected to the Internet. This course will examine the history of web servers and web applications, with a focus on two of the main web servers as well as evaluate different web applications for flaws. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1453
EDP454 System Fundamentals for Cyber Security This course will examine basic technologies for Cyber Security. This course provides a fundamental overvew paritcularly helpful for an introductory look at Cyber Security. Topics covered will include: a review of common operating systems and their various features and drawbacks. Networking concepts, devices and components to operational networks will also discussed. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1454
EDP455 Cryptography Fundamentals When storing and transmitting data, it’s important to secure your data in such a way that only those for whom it is intended can read/process it. Cryptography is a method to ensure this security. This course will explore areas of cryptography. Topics covered will include symmetric and asymmetric encryption, as well as hashing and steganography. Finally the course will examine the language of cryptography and where it plays a major role. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1455
EDP456 Footprinting Footprinting is the process of gathering data regarding a network environment, and is usually for the purpose of finding ways to intrude into the environment. Footprinting can reveal system vulnerabilities and improve the ease with which they can be exploited. In this course, the fundamentals of footprinting are covered along with some methods to perform the process. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1456
EDP457 Wifi and Bluetooth Security It’s vital to develop strategies for mobile device security, including WiFi and Bluetooth, so that your data isn’t compromised. While all mobile devices present risks that need to be addressed, WiFi and Bluetooth security is a vital area. In this course, the security of WiFi and Bluetooth technologies are examined. This course will provide insight into how to protect a wireless network from being hacked. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1457
EDP458 Mobile Device Security As mobile technologies mature, there is an increase in the use of mobile devices to access sensitive data. Unfortunately, security controls have not necessarily kept pace with the security risks that mobile devices can pose. In this course, the different types of mobile operating systems are discussed. Additionally, the course will examine how data on mobile devices can be lost, stolen, and protected. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1458
EDP461 Network Sniffing A sniffer is a program/device that monitors data traveling over a network. Sniffers can be used both for legitimate network management and for stealing information off a network. Unauthorized sniffers can be dangerous to a network’s security as they are virtually impossible to detect. In this course we will examine the process of sniffing, including active and passive sniffing. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1461
EDP471 Cloud Security Cloud computing is causing a transformational shift that touches almost every part of the technology landscape. This video course presents a picture of threat vectors in cloud services, and the unique architectural considerations for securing assets as they move through cloud providers. The security challenges that result from the loss of control over information assets in the cloud, and how a more complex regulatory environment augments those challenges are also discussed. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1471
EDP472 Data Security in the Cloud The move to Cloud services introduces many new and complex issues related to data security. This video course addresses the threats to data security as they relate to the Cloud, and offers a review of the technologies that work together to create a robust Data Loss Prevention (DLP) architecture. Core concepts such as Encryption and Key Management are discussed, as well as strategies for the development of an enterprise-wide DLP policy. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1472
EDP477 Social Internet of Things: Reference Architecture and Use Cases In this course a reference architecture for the social internet of things paradigm is presented. It is a cloud-based solution which implements the rules for: management of the objects’ friendships, discovery of potential providers of services in the social network, and evaluation of the objects’ trustworthiness. Relevant APIs (Application Programming Interfaces) will be presented so that third parties can develop applications on top of it. Additionally, some use-cases are reviewed and details are provided for one example to show the usage of the reference architecture. Topics covered include: A reference architecture overview, Major architecture components, Architecture APIs and Review of sample use-cases. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1477
EDP483 The Evolution of Internet of Things for Healthcare In this course, we will explore the main concepts that will provide you with the foundations and concepts related to Healthcare and Internet of Things. First, we will have a brief look into the evolution of healthcare from classic healthcare into diverse forms of electronic healthcare. Next, we will review the concept of Internet of Things and how it relates with healthcare in a variety of ways. Once these foundations are set, we will discuss the main challenges and opportunities that the use of the IoT paradigm implies for the healthcare sector. And we will finish with some conclusions and open questions. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1483
EDP485 Paving the Way for Future Internet of Things Applications in Healthcare In this course, we will address some current real experiences that pave the way for future applications. These scenarios are focused on the use of connectable devices and advanced mobile devices that collect data (such as the omnipresent smartphones). These data are analyzed using computer science techniques, such as data mining, aiming, amongst others, at improving healthcare and offering new health related services. Some of the ideas and projects addressed in this module are still in an emerging state. This course is divided into three parts. In the first one, we will address real applications around the concept of Ambient Assisted Living. Next, we will move to the concept of mobile health, in which the smartphone plays a key role. Finally, we will address some challenges, namely interoperability problems, big data and security and privacy. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1485
EDP486 What is the Internet of Things: An Introduction This module provides an overview of the Internet of Things technology. The emergence of the paradigm is explored and a range of application areas and challenges are discussed. In particular, we explain the broader implications of networked small devices, and the types of services they can provide. Some implications in the area of personal and information security challenges associated with deployment of Internet of Things and broad adoption of Internet connected small devices and sensor networks are also explored. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1486
EDP496 Responsible Innovation in the Age of Artificial Intelligence This course focuses on how traditional philosophical models like utilitarianism, virtue ethics and other key modalities of applied ethics have evolved to embrace specifics of algorithmic tracking and intelligence augmentation of Artificial Intelligence (AI). This course shows that by implementing these new models, businesses can learn how to holistically incorporate AI into their innovation process to sustain profits while honoring their purpose. This course also features recommendations on who within an organization should be tasked with exploring AI Ethics to implement these ideas. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1496
EDP497 The Economic Advantage of Ethical Design For Business The rapid growth of autonomous and intelligent technology is affecting large portions of society in multiple verticals all at the same time. AI/S technology cannot be built in isolation, and to get a full sense of ethical and policy impacts of this technology it’s essential to understand the larger context of its implementation to best increase societal wellbeing while building your business. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1497
EDP498 Values by Design in the Algorithmic Era This introduction to applied ethics in systems design provides a sense of how technologists and businesses can evolve their thinking about manufacturing AI or AS products in the algorithmic era. Presents methods for identifying, analyzing, and operationalizing moral, societal and legal values in the context of AI projects, in explicit and verifiable ways to enable inspection and stakeholder participation. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1498
EDP499 The Nature of Nudging “Nudging” refers to the ability of systems or robots (embodied AI) to overtly influence human users with or without their direct consent. When used by permission and with awareness around a robot or system’s desired goals, nudging can greatly improve user’s lives for anything from dieting to depression. However, when nudging is covert and utilized in aggressive advertising algorithms to incentivize purchase or influence behavior that may not be desired by users or their loved ones nudging poses an ethical threat and negative business implications. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1499
EDP500 Ensuring Data Protection and Data Safety The creation of the GDPR (General Data Protection Regulation) legislation in the EU means that every European organization has to account for the safe and proper handling of citizen’s personal data or risk a fine of up to 4% on their gross annual revenue. This legislation has global implications as every major organization has data of EU citizens or that flows through EU servers. This legislation provides a massive opportunity to increase ethical considerations in the creation of AI/S and technology in general where organizations can go beyond compliance and reframe innovation to provably align their products and services with end user values. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1500
EDP523 From Growth to Great In this course we will examine how the growth of Artifical Intelligence is aligned with responsible business practice, and will understand the need for, and principles of, Agile Governance. Next we will review how ethical considerations tie into the ongoing manufacture, implementation and policy regarding AI/AS and finally we’ll discover how standards for Ethical AI/AS can enhance growth. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1523
EDP524 The Basis for No Bias Algorithmic Bias is unavoidable when recognizing that humans create the initial code upon which these AI tools are built. By identifying and assessing the key considerations in how algorithms are created and the data sets they utilize, businesses can avoid negative unintended consequences and establish trust for the products and services they create. This course will review the following topics: Socio-technical nature of algorithmic systems; Structural causes of unintended/unjustified bias; Illustrative examples of algorithmic bias and Key questions to answer when assessing bias in algorithmic systems. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1524
EDP525 Transparency and Accountability for Robots and Artificial Intelligence Systems As Autonomous and Intelligent Systems are spreading across several industry and service sectors, the public, the users, the designers, policy makers and lawmakers need to understand who is responsible for the behavior and the decisions made by such systems. This course explains the basic concepts of transparency and accountability and how these can be translated, and applied, in the context of Autonomous and Intelligent Systems. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1525
EDP526 Human Emotion in Devices and Technology The field of Affective Computing that encompasses the nature of how human’s emotions respond to devices and technology is a seminal issue to study in regards to the ethical implications of AI/AS. Where users may not understand that robots/AI are infused with affective sensors or technology, they could be manipulated or tricked in ways unintended by well-meaning manufacturers or designers.   If we are to live with robots in our near future, we must become more emotionally intelligent before trying to imbue ethical instructions for our silicon companions. In this course we will review the concept of affective computing. We will then examine its most relevant ethical issues and how to deal with them. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1526
EDP527 Legal and Implementation Issues of Enterprise Artificial Intelligence Self-driving cars, drones, and companion robots are already introduced into society. With this in mind, what are the most pressing legal issues for companies to be thinking about today and in the near future? This course will outline the top issues of compliance, risk, and opportunity AI/AS can bring, and how an organization can establish the infrastructure to strategically address these emerging technologies. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1527
EDP534 Object Visual Detection for Intelligent Vehicles Examine visual objects categorization with standard machine learning algorithms and other deep learning approaches. Consider the motivations for visual objects detection and recognition in intelligent vehicles, and methods for objects visual detection, or to find where important objects are in the image. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1534
EDP536 Developing and Validating Intelligent Vehicle Control Systems Learn how to model and evaluate performance of intelligent vehicle control algorithms using state-of-the-art techniques and concepts, especially in real-world conditions. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1536
EDP538 Sensors for Autonomous Vehicles Learn the role of sensors in an AV system, properly identify typical sensors used in an AV, and assess the benefits and drawbacks of different sensing modalities. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1538
EDP537 Cooperation in Autonomous Vehicles Explore how real-time decision making is performed by autonomous vehicles, especially when they cooperate with each other, in complex environments such as intersections and lane-changing operations. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1537
EDP539 Overview of Edge Computing This course module will help you to learn why Edge Computing is a new and important development in the computing landscape. The lecture is organized in three parts. The first part defines Edge Computing and lists the different ways in which it can deliver value. The second part presents experimental evidence that low latency, one of the key attributes of Edge Computing, can substantially improve user experience. The third part describes how Edge Computing enables two new classes of applications: wearable cognitive assistance, and scalable real-time video analytics. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1539
EDP540 Application Scenarios of Edge Computing This course introduces the application scenarios of edge computing. Three real-world applications including smart home, public service, and the autonomous vehicle will be covered in this course along with the discussion of the benefits and challenges by employing Edge computing. This course will be instructional for practitioners in their designing and developing of their Edge computing applications. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1540
EDP542 Designing Security Solutions for Edge, Cloud, and IoT This course not only analyzes the new challenges in edge computing, but also presents two novel edge-based security solutions for IoT applications. First, EdgeSec designs a novel security service that is deployed at the Edge layer to enhance the security of IoT systems. Second, the secure and efficient smart data collection framework enables secure data readings from smart grid devices based on a two-phase authentication protocol. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1542
EDP544 Strong Before Smart Focuses on how to think about grid modernization and explores the drivers of grid modernization and the power industry’s shift in thinking from adding devices and systems to holistic solutions. This section of the course program discusses the role of policy, technology, and standards in creating holistic solutions. Module 1 explains the efficacy of a strong grid based on an information and communication technology, or ICT, foundation, and why current investments in intelligence and visibility focus on the distribution system. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1544
EDP545 Smart Distribution Systems The second module focuses on distribution: visibility and data for a self-Healing grid and addresses the standards and communication protocols that support a strong grid in which intelligent electronic devices, or IEDs, are integrated with the ICT foundation for visibility into distribution system functions. This section delves into the principles and practices of cybersecurity, including customers’ data privacy. Module 2 takes a deep dive into six holistic solutions for efficiency, reliability, and resiliency and the flexible data communication architecture that enables them to meet utility challenges. https://ieeexplore.ieee.org/servlet/opac?mdnumber=EW1545
EDP550 Enterprise Blockchain Overview This course module introduces Blockchain for Enterprise with an emphasis on where and how Blockchain will impact corporations. Included is a short review of cryptocurrencies followed by an in-depth review on Blockchain’s underlying technological advantages and where best to deploy in industry. A review of smart contracts is included along with the types of blockchain models: public, private and hybrid. The course also highlights the major cloud company offerings on Blockchain for the learner’s own project exploration with a familiar service provider. https://ieeexplore.ieee.org/courses/details/EDP550
EDP551 Enterprise Blockchain for Grid Modernization Blockchain for Grid Modernization and Energy provides an overview of the benefits of Blockchain for grid management, an explanation on how Blockchain for energy works, some key drivers of adoption for energy and the Open Blockchain Energy (OBE) framework for Blockchain adoption to manage modern energy grid networks more efficiently.   Finally we highlight the transactive energy model where grids are managed at a more granular level enabling higher efficiencies and better localized utilization of energy networks. https://ieeexplore.ieee.org/courses/details/EDP551
EDP553 Enterprise Blockchain for the Internet of Things The convergence, opportunities, use cases and challenges of Blockchain and Internet of Things (IoT) are highlighted in this course. First a general understanding of the opportunities and challenges associated with the convergence of Blockchain technology and IoT are covered. Then emerging use cases, projects, and technologies that apply Blockchain and leverage IoT’s mutual advantages are explained. The course finishes with an outlook on the future of Blockchain and IoT. https://ieeexplore.ieee.org/courses/details/EDP553
EDP557 Introduction to IEEE Std 1547-2018 IEEE Standard 1547-2018, the primary interconnection standard for distributed energy resources in North America has been under revision for the past several years. In the first part of this course, the rationale for the revision of the standard will be addressed. In addition, the course will review codes and standards related to IEEE Std 1547, the history of the interconnection standards, and the IEEE 1547 evolution in both the short-term and long-term. In the second part of this course, the objectives are to familiarize learners with the following topics: general overview and limitations; inteference points of applicability (RPA); applicable voltages; measurement accuracy; cease to energize performance requirement; control capability requirements; prioritization of DER responses; isolation device; inadvertent energization of the area EPS and enter service. The goal is for learners to become aware of the critical assumptions and requirements that are included in the 1547 document. https://ieeexplore.ieee.org/courses/details/EDP557