The Internet originated from US government research in the 1960s and was developed using TCP/IP. It consists of private, public, academic and business networks globally that are linked through various technologies. The Internet grew rapidly in the 1990s due to lack of central administration and open protocols. It now carries over 97% of long-distance communication and billions of people use it for various services like email, websites, file transfers and more. Various organizations govern the Internet to manage activities and technical aspects like IP addresses and protocols to keep it functioning efficiently.
Developments in the TMT Sector - Current trends & emerging legal issuesMartyn Taylor
Presentation on developments in the TMT sector given to the "Technology, Media & Telecommunications: Challenges & Opportunities" seminar in March 2017 in Sydney
Content:
- Software eats the world - global disruption caused by digital platforms
- Technology - Big Data - legal issues in data security and sovereignty
- Media - disruption to content business models and recent law reforms
- Telecoms - the outlook to 5G mobile and the future of next generation networks
- Emerging legal issues in particular sectors - fintech, smart grid, transport
IoT Internet of Things , represents many kinds of devices in the field, connected to data centres via various networks, submitting data, and allow themselves to be controlled. Connected cameras, TV, media players, access control systems, and wireless sensors are becoming pervasive. Their applications include Retail Solutions, Home, Transportation and Automotive, Industrial and Energy etc. This growth also represents security threat, as several hacker attacks been launched using these devices as agents. We explore the current environment and propose a quantitative and qualitative trust model, using a multi dimensional exploration space, based on the hardware and software stack. This can be extended to any combination of IoT devices, and dynamically updated as the type of applications, deployment environment or any ingredients change. Karthik MV "Trust Modelling for Security of IoT Devices" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31573.pdf Paper Url :https://www.ijtsrd.com/computer-science/computer-security/31573/trust-modelling-for-security-of-iot-devices/karthik-mv
In this presentation, Ronan de Renesse explores various scenarios where 4G retains the ability to help drive mobile data revenue growth, but without the heavy price tag. It was delivered at an event organised by Cambridge Wireless entitled '4G and Beyond: The Mobile Landscape in the UK after the LTE Auction' in London, UK, on 8 May 2013.
Developments in the TMT Sector - Current trends & emerging legal issuesMartyn Taylor
Presentation on developments in the TMT sector given to the "Technology, Media & Telecommunications: Challenges & Opportunities" seminar in March 2017 in Sydney
Content:
- Software eats the world - global disruption caused by digital platforms
- Technology - Big Data - legal issues in data security and sovereignty
- Media - disruption to content business models and recent law reforms
- Telecoms - the outlook to 5G mobile and the future of next generation networks
- Emerging legal issues in particular sectors - fintech, smart grid, transport
IoT Internet of Things , represents many kinds of devices in the field, connected to data centres via various networks, submitting data, and allow themselves to be controlled. Connected cameras, TV, media players, access control systems, and wireless sensors are becoming pervasive. Their applications include Retail Solutions, Home, Transportation and Automotive, Industrial and Energy etc. This growth also represents security threat, as several hacker attacks been launched using these devices as agents. We explore the current environment and propose a quantitative and qualitative trust model, using a multi dimensional exploration space, based on the hardware and software stack. This can be extended to any combination of IoT devices, and dynamically updated as the type of applications, deployment environment or any ingredients change. Karthik MV "Trust Modelling for Security of IoT Devices" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31573.pdf Paper Url :https://www.ijtsrd.com/computer-science/computer-security/31573/trust-modelling-for-security-of-iot-devices/karthik-mv
In this presentation, Ronan de Renesse explores various scenarios where 4G retains the ability to help drive mobile data revenue growth, but without the heavy price tag. It was delivered at an event organised by Cambridge Wireless entitled '4G and Beyond: The Mobile Landscape in the UK after the LTE Auction' in London, UK, on 8 May 2013.
This presentation was shown at LTE World summit 2010 in Amsterdam illustrating Continuous Computing's LTE (Long Term Evolution) technologies and expertise. The presentation covers:
•Supporting early development of nontraditional products for use on LTE networks
•Building a broad ecosystem of devices in parallel with LTE deployment what should the role of the operator be?
•Removing business and technical barriers and defining new models to accelerate mass adoption of new services and devices
Webinar - Security 2.0: A new way to deal with today’s security challenges in...Quiver
How to deal with today’s security challenges in the digital world?
In this webinar you will learn how to secure files and counter risks that come with digitalization -
New ways to deal with today’s digital security, and the impact of the European Data Privacy Laws on the way we secure files.
The development of the cellular Internet of Things is actually affected by the development of mobile communication networks.
In the next few years, the cellular Internet of Things will switch from 2G connections to NB-IoT+4G connections, but the switching process will not happen overnight, and smooth migration needs to be achieved through the iterative product iteration of NB-IoT and LTE Cat.1.
According to Counterpoint data, most of the existing and newly added cellular IoT connections before 2020 will come from 2G IoT, and by 2025, the number of 2G/3G IoT connections will be almost negligible.
In other words: the migration of 2G Internet of Things to NB-IoT+4G+5G may be completed within five years.
The report includes an analysis of ICT trends for 2020, the year of 5G commercialization. There will be a change in the value chain of the ICT industry since 2020, so this report can confirm this. See more than 160 pages of reports for comprehensive information on 5G changes. (This English version report was created using Google Translator.)
This presentation was shown at LTE World summit 2010 in Amsterdam illustrating Continuous Computing's LTE (Long Term Evolution) technologies and expertise. The presentation covers:
•Supporting early development of nontraditional products for use on LTE networks
•Building a broad ecosystem of devices in parallel with LTE deployment what should the role of the operator be?
•Removing business and technical barriers and defining new models to accelerate mass adoption of new services and devices
Webinar - Security 2.0: A new way to deal with today’s security challenges in...Quiver
How to deal with today’s security challenges in the digital world?
In this webinar you will learn how to secure files and counter risks that come with digitalization -
New ways to deal with today’s digital security, and the impact of the European Data Privacy Laws on the way we secure files.
The development of the cellular Internet of Things is actually affected by the development of mobile communication networks.
In the next few years, the cellular Internet of Things will switch from 2G connections to NB-IoT+4G connections, but the switching process will not happen overnight, and smooth migration needs to be achieved through the iterative product iteration of NB-IoT and LTE Cat.1.
According to Counterpoint data, most of the existing and newly added cellular IoT connections before 2020 will come from 2G IoT, and by 2025, the number of 2G/3G IoT connections will be almost negligible.
In other words: the migration of 2G Internet of Things to NB-IoT+4G+5G may be completed within five years.
The report includes an analysis of ICT trends for 2020, the year of 5G commercialization. There will be a change in the value chain of the ICT industry since 2020, so this report can confirm this. See more than 160 pages of reports for comprehensive information on 5G changes. (This English version report was created using Google Translator.)
Billions of interconnected devices that are connected to the internet in the IoT (Internet of Things) will produce astronomical amount of data to process. The amount of data can easily overload the cloud computing resources at the back-end IT systems. With Fog (or Edge) computing, the problem can be eased by allowing smart devices (e.g., smartphones, PCs, set-top boxes) at the edge of the IoT networks.
As early as the end of 2012, General Electric proposed that industrial equipment should be integrated with IT technology.
In 2013, General Electric officially introduced the concept of the Industrial Internet of Things revolution. This is also the first time that the Industrial Internet of Things has been formally proposed.
The 7 Biggest Technology Trends That Will Transform Telecoms In 2020Bernard Marr
Technology is changing the way telecommunications companies operate, the services they offer and the threats they face. These technologies require telecoms to adapt infrastructure, recruit new talent and build new processes. As we prepare to begin a new decade, here are the seven biggest technology trends that will transform telecoms in 2020.
OT - How IoT will Impact Future B2B and Global Supply Chains - SS14Mark Morley, MBA
This presentation was originally given at an EDIFICE plenary in Brussels in May 2014. EDIFICE is a European based industry association driving B2B standards across the high tech industry. The presentation discussed digital disruption and how the Internet of Things is likely to impact future design of B2B platforms and global supply chains. - Updated March 2015
20090327 Software Engineering -- What's in it for me?Arian Zwegers
Presentation about the opportunities for funding in Software and Services, esp in the FP7 ICT Work Programme, ITEA2, and Artemis, for the CSMR conference, Kaiserslautern (Germany), 27 March 2009
20090616 Investing in Software & Services ResearchArian Zwegers
Presentation about why the European Community funds research in ICT and about the opportunities for funding in Software and Services in the FP7 ICT Work Programme, for the SSAIE Summer School, Heraklion (Greece), 16 June 2009
An Internet of Things blueprint for a smarter worldMarc Jadoul
Published October, 2015
This white paper discusses how to leverage machine-to-machine communications, big data analytics and the cloud to power a smarter world and monetize the Internet of Things.
Internet of things (IoT) is an emerging technology today that envisions all objects around us as a part of
Internet. Automation of the devices, appliances at home and office is having extensive possibility of research
with the innovation of technology in communication. Misuse of power energy can be shortened by automating
the devices and appliances. Mobile communication is plays a major role in the automation domain. Android
phones are designed with applications to automate the required devices. Creating a mobile app on a Smartphone
device so that the user can control electronic devices; see the amount of flow, so the problem is the difficulty in
saving electricity can be resolved. IoT includes variety of objects like smart phones, tablets, digital cameras and
different sensors. When all these devices are connected together, they enable additional smart processes and
services that support our basic needs, environment and health. Massive number of devices connected to internet
provides enormous kinds of services and also produces huge amount of data and information. Cloud computing
is an on-demand access to a shared pool of configurable resources that can be provisioned as infrastructures,
software and applications. Cloud based platforms help to connect to the things around us so it is easy to connect
any objects anytime at any place using in built applications. Applications that use devices like sensors have
unique requirements of enormous storage to store big data and huge computation power to enable the real time
processing of the data, information and high speed network is required for audio and video streaming. Wireless
technologies like Bluetooth, WiFi, and ZigBee have been used in wide range of applications like modern home
security systems using low cost, low power, less complexity RF module.
Let the editor take you to know more about the Industrial Internet and Industry 4.0 and how technologies such as the Internet of Things, 5G, Big Data Analysis, and Machine Learning help the construction and development of the two.
Advanced iot application training course Bryan Len
Price: $1,999.00
Length: 2 Days
The Internet of things (IoT) is the extension of Internet connectivity into physical devices and everyday objects.
Embedded with electronics, Internet connectivity, and other forms of hardware (such as sensors), these devices can communicate and interact with others over the Internet, and they can be remotely monitored and controlled
The course introduces you to advance concepts and design methodologies to design IoT systems. Application Protocols – HTTP, Web sockets, MQTT, CoAP, Understanding of cloud infrastructure, services, APIs, and architectures of commercial and industrial cloud platforms.
The number of things connected to the Internet and in use will grow 30 percent from this year to next, for a total of 4.9 billion, according to a new report from market research firm Gartner, and will hit over 25 billion by 2020. The IOT will have an very high economic impact.
Topics of Advanced IoT Application Training Course:
Concepts and definitions of The Internet of Things (IoT)
History of IoT
Applications
IoT standards
Requirements
Functionalists and structure
IoT enabling technologies
IoT architecture
Major components of IoT
Hardware, sensors, systems-on-a-chip, firmware, device drivers, application software, connectivity, cloud and security
Role of wired and wireless communication
IoT communication and networking protocols
IoT services and applications
Big data and analytics
Security
Cloud computing and the Internet of Things
Semantic Web 3.0 Standard for M2M and IoT
IoT Platforms
Challenges of adapting the concepts
Wireless 101
RF 101
ZigBee PRO, ZigBee 3.0 and ZigBee IP / 6LowPAN / RFID
Bluetooth and BLE (BT5.0) / Z-Wave
Home Automation (HA) Profile
Smart Energy (SE) Profile / Health Care
IEEE 802.15.4, IEEE 802.15.4e, 802.11ah
802.11ah, Wi-Fi HaLow
Relay Access Point (AP)
Grouping of stations
Target Wake Time (TWT)
Speed Frame Exchange / Sectorization
GSM, CDMA, GPRS,3G, LTE, small cells, SATCOM / LTE and 5G
Sensors and sensor networks / Serial communication
Power consumption and optimization
MIPI, M-PHY, UniPro, SPMI, BIF, SuperSpeed USB Inter-Chip (SSIC), Mobile PCIe (M-PCIe) and SPI
Wired connectivity / IPv4/IPv6/ Ethernet/GigE
Real-time systems and embedded software
Big data / Analytics
Cloud computing and storage
Augmented Reality
Request more information. Visit Tonex course link
https://www.tonex.com/training-courses/the_internet_of_things_training/