Palomar5 und T-Labs

Virtual work allows employees to access their work from anywhere. The document discusses creating an integrated office infrastructure using information, communication, media, and building security technologies to better support efficient information workers. It also discusses using meeting management software to more efficiently plan, prepare, and monitor virtual and real world meetings. Finally, it provides an example of the Deutsche Telekom Laboratories campus that uses various technologies like maps and sensors to create a virtual workspace to support collaboration.

Vision 2050 document outlines a future where: 1) Physical mobility is replaced by virtual presence through advanced communication technologies that allow people to be virtually anywhere. 2) Work and personal lives are blended as distance no longer impacts social and professional connections. 3) Individualization and personalization are prevalent as mass media declines and personal communication rises.

H1N1 in business continuity will rely on technology. Communications continuity will ONLY WORK if based on technologies that are currently in use. Technologies instituted during a pandemic will produce catastrophic failures. This presentation take a CIO view of technologies and staff related issues.

Planning our Cities Through Humanizing Data – Data Driven Cities from a People-First Perspective in Pune, Maharashtra India the seminar Planning for Sustainable Cities in Maharashtra, organized by the NGO World Resources Institute in cooperation with the government of that State.

The document discusses the need for Industry 4.0 and connectivity in smart factories. It outlines 10 benefits of Industry 4.0, including helping manufacturers with challenges, increasing speed of innovation, and enabling sustainable prosperity. It describes how connectivity allows a planner in Europe to address a machine issue in the US in real-time. Smart factories require connected assets to generate real-time data for decision making. Integration of data enables efficiency across the entire supply chain. The document also discusses factors to consider when choosing an IoT connectivity solution and examples of connectivity types.

This document discusses key aspects of enterprise networks and communications technologies. It covers trends driving adoption of new technologies, including increased data usage and mobility. It also summarizes the main components of enterprise networks, including applications, services, infrastructure, transmission media, and techniques like multiplexing and compression. Unified communications, intranets, and the role of standards bodies are also outlined.

1. The document discusses the future of enterprise communications and the need for an integrated system that allows for multimedia communication including instant messaging, video conferencing, and application sharing across mobile devices. 2. It proposes a solution of integrating phone calls with email and web tools into a single collaborative system that supports both synchronous real-time communication and asynchronous communication. 3. The system should be context-aware by using sensors and location data to determine users' availability and adapt to their environments and devices. This enables more effective collaboration both within and across enterprises.

This document provides an overview of different working practices that have been impacted by information and communication technologies (ICT). It discusses several topics including home/teleworking, remote working, office-based working, videoconferencing, instant messaging, and faxing. For each topic, the document describes the technology used, how it has changed work patterns, examples of use cases, and key requirements. While teleworking and remote working have increased with new ICT devices, many companies still prefer office-based working for reasons like data security and employee isolation. Videoconferencing is now commonly used for meetings instead of travel, while instant messaging and phone conferencing allow real-time communication. Fax technology remains relevant for transmitting copies of

Mainflux Labs provides open source Internet of Things (IoT) technology and consulting services. It offers the Mainflux IoT platform for connecting devices, managing data, and building IoT solutions. The company was founded in 2015 in Belgrade, Serbia and has 7 employees. Mainflux Labs works with clients around the world on IoT projects and has participated in several European Union-funded research programs involving IoT and digital twins.

The document discusses network packet reconstruction technology for computer forensics and information security. It summarizes Decision Group's product offerings which allow capturing, organizing, and replaying network packets for analysis. It also outlines their research and development history and customer base.

Pervasive computing explores embedding computing power into everyday objects to create an intelligent environment where technology is invisible and enhances human abilities. It involves distributing small, networked processing devices everywhere to integrate information processing into daily life and activities. Key aspects include ubiquitous connectivity, accommodating different networks and devices, and easy context-aware interaction and access to information and services. Challenges include privacy, security, control and transparency when computers are everywhere.

This document describes several test beds and living labs operated by IBBT. It summarizes: 1) IBBT operates three main test beds - iLab.o focuses on open innovation and policy experimentation using a wireless campus network. iLab.u evaluates user experiences of new technologies. iLab.t provides infrastructure to test network performance and service quality. 2) Examples of projects using these facilities include development of interactive TV in Flanders and a trial of a digital newspaper on an e-reader. 3) IBBT aims to support research and innovation through multi-stakeholder collaboration in these test beds and living labs.

This document describes several test beds and living labs operated by IBBT. It summarizes: 1) IBBT operates three main test beds - iLab.o focuses on open innovation and policy experimentation using a wireless campus network. iLab.u evaluates user experiences of new technologies. iLab.t provides infrastructure to test network performance and service quality. 2) Examples of projects using these facilities include development of interactive TV in Flanders and a trial of a digital newspaper on an e-reader. 3) IBBT aims to support research and innovation through multi-stakeholder collaboration in these test beds and living labs.

The document discusses five emerging technologies in industry: 1) Internet of Things (IoT) which refers to the growing network of physical objects connected to the internet; 2) Artificial Intelligence (AI) which simulates human intelligence through machine learning and problem solving; 3) 5G networks which will provide faster wireless speeds and lower latency; 4) Serverless computing which allows users to deploy code without managing infrastructure and be charged based on usage; 5) Blockchain which is a distributed database existing across multiple computers that records transactions in an immutable digital ledger. These emerging technologies are expected to significantly impact businesses and create new opportunities across various industries over the next 5-10 years.

Home networking allows for the connection and integration of multiple computing, communication, and smart home devices. The proliferation of personal computers and internet-connected smart devices in homes has increased the need for home networks. A home network provides simultaneous internet access for multiple users, file and peripheral sharing, home automation, and more. It connects devices via both wired and wireless technologies. A residential gateway provides connectivity between the home network and broadband internet and enables new connectivity-based services. However, home networks face challenges related to infrastructure reuse, low cost, simplicity, reliability, installation/maintenance, distance requirements, and interoperability between devices.

- The document discusses the Hydra project, which aims to create middleware for networked embedded systems to enable cost-effective development of ambient intelligence solutions and low costs for device manufacturers. - The Hydra middleware uses a service-oriented architecture and semantic modeling to provide tools for solutions providers and device manufacturers. - It addresses issues like device interoperability, context-aware applications, and privacy in heterogeneous networks of embedded devices and sensors.

BBA100: Business and Society Good Evening, everyone. Thank you so much for the opportunity to present our bid to jointly host the 17th PST conference in New York. 1 Dr. Hak J. Kim Chairperson & Associate Professor Department of Information Systems and Business Analytics Phone: 516-463-4244 E-mail: [email protected] Information Systems & Business Analytics I am Hak Kim from Hofstra University. My colleague, Dr. Hossein Sarrafzadeh from St. Bonaventure University. We prepare this presentation, but unfortunately he cannot join today’s presentation. 2 Who am I BBA from Korea University MBA from Korea University MIM (Int’l Mgt) from Thunderbird University MS (Telecommunications) from Univ. of Colorado Ph.D. in Information Science from Univ. of Pittsburgh Research Engineer at SK Telecom (‘Korea Mobile Telecom) Assistant/Associate Professor in University of Houston Moved to Hofstra University in Fall 2010 Director of Computer and Network Lab from Fall 2010 Tenured at Hofstra University in 2014 Department Chairperson from Fall 2016 Office Hours Hak J. Kim, Ph.D. Office: 211A Weller Hall Phone: 516.463.4244 E-mail: [email protected] Office Hours: M/W: 2:30pm - 4:30p Anytime available by appointment In general, I’m in my office a lot – feel free to stop by with questions if the door is open. Information Systems and Business Analytics (IS/BAN) Academic Scope of IS/BAN Database & Enterprise Systems Business Applications & Programming (Coding) Computer Networking & Cyber Security Data Analysis Business Problem Solving Data Visualization Data Collection Programs & Tracks Undergraduate Major Information Systems Business Analytics Minor Information Systems IS & Business Analytics Business & Design Graduate M.B.A. Information Systems Business Analytics Quality Management Master of Science (MS) MS in Information Systems MS in Business Analytics IT/Analytics Skill Sets Academic Alliance BBA100 Sessions (IS/BAN Area) Session I: Data and Information Systems (SAP ERP) Session II: Mobile App Design (MIT App Inventor) Session III: Computer Networking/Cybersecurity Session IV: Big Data, IoT, AI, Blockchain, etc. Today’s Menu Session I: Data and Information Systems Data vs. Information Information Systems Database (DB) and DBMS SAP ERP Hands-on Lab Data vs. Information Processing Data Information Input Output Raw facts Manipulated Data Models Tools Example : Thousands of Transactions Statistics Excel Average Sales in Regions Example: Data What is the revenue in each country in 2007? Example: Information Pivot Table Enterprise IT Infrastructure Enterprise (Business) Information Systems Information Systems Function Transactional Processing System Executive Information System Management Information System Decision Support System Artificial Intelligence System ERP i.e., 5-year forecasting i.e., Quarterly Sales Report i.e., Investment Decision i.e., Ordering/Fulfilme.