We provide platforms and frameworks for rapid development to unify Everything on the Internet for innovations to be created. Our customers has chosen our technology to be on the edge into the future of Internet. The future of Internet is not about a single technology or protocol, but to make them coexist.
Extends cloud computing services to the edge of the network.
Similar to cloud, Fog provides:
Data
Computation
Storage
Application Services to end users.
Motivations for Fog Computing:
Smart Grid, Smart Traffic Lights in vehicular networks and Software Defined Networks.
Fog computing is a model in which data, processing and applications are concentrated in devices at the network edge rather than existing almost entirely in the cloud.
Fog Computing is a paradigm that extends Cloud Computing and services to the edge of the network, similar to Cloud, Fog provides data, compute, storage, and application services to end-users.
We provide platforms and frameworks for rapid development to unify Everything on the Internet for innovations to be created. Our customers has chosen our technology to be on the edge into the future of Internet. The future of Internet is not about a single technology or protocol, but to make them coexist.
Extends cloud computing services to the edge of the network.
Similar to cloud, Fog provides:
Data
Computation
Storage
Application Services to end users.
Motivations for Fog Computing:
Smart Grid, Smart Traffic Lights in vehicular networks and Software Defined Networks.
Fog computing is a model in which data, processing and applications are concentrated in devices at the network edge rather than existing almost entirely in the cloud.
Fog Computing is a paradigm that extends Cloud Computing and services to the edge of the network, similar to Cloud, Fog provides data, compute, storage, and application services to end-users.
Ericsson Technology Review: Tackling IoT complexity with machine intelligenceEricsson
IoT-based systems will require a high level of decision making automation both in terms of infrastructure management and within the logic of the IoT applications themselves. Decision support systems (DSSs) are an essential tool in this context on account of their ability to enhance human decision-making processes with machine intelligence. The cognitive automation framework that we have created at Ericsson speeds up the development and deployment of intelligent DSSs by reusing as much knowledge as possible, including domain models, behaviors and reasoning mechanisms. The framework substantially reduces operational costs for IoT-based system management by enabling DSSs to make decisions about how to adapt to changes in their context and environment with minimal or no human interaction.
Are you ready for IoT disruption? by Ana SeliškarBosnia Agile
Digitization is redefining industries. Every business, city and country will become digital. Trends show that by 2020 50 billion devices will be connected. This growth of IoT requires compute and storage close to the end devices for several reasons – data reduction, resiliency, latency and scale. All those can be addressed by fog computing uniquely enabled by Cisco as one of six pillars of Cisco IoT System which provides the technologies and software you need to deploy, accelerate, and innovate in the era of IoT.
Microsoft Telecommunications Newsletter | December 2021Rick Lievano
Across industries, organizations are venturing deeper into their digital transformation journeys every day, and the telco industry is no exception. Microsoft is front-and-center helping to lead the transition of mobile networks to an open, disaggregated, and software-based model, leveraging Azure for Operators as the platform of choice. In this edition, you’ll find numerous stories about telcos transitioning IT, BSS, OSS, and their most critical network workloads to the cloud—and how Microsoft and partner solutions are key to those efforts.
This transformation doesn’t stop with core services, but it extends to innovative solutions that generate new revenue streams for operators. In this place where cloud meets the edge, compute meets mobile, and 5G trends continue to drive innovation, customer demand for advanced network capabilities is surging. Azure Edge Zones with AT&T is a great example of how Microsoft partners with operators to dramatically improve an application’s performance while reducing overhead and complexity for enterprise customers. And our extensive portfolio of private network offerings, cited as the most innovative globally in a recent Omnia report, provide operators new private LTE/5G solutions to bring to market.
Finally, we’d like to welcome Francesco Venturini to the Microsoft family as the executive leader for Media & Communications, and we look forward to working alongside him. Wishing you all a safe and happy holiday season.
Michael enescu keynote chicago2014_from_cloud_to_fog_and_iotMichael Enescu
Just as we became familiar with Cloud computing and the dominant role of Open Source, a new compute model has emerged, an extension of the Cloud to the Edge of the network, some call it Fog computing, others the Internet of Things or IoT. Open Source will also play a dominant role in this, as it does in the Cloud, but what exactly is it, and what does it mean in IoT. How is the model changing as the new generation of devices has stretched what we previously knew as Cloud compute. And most importantly, why, what, and how the new IoT-specific Service Provider (IsSP?) model emerges and disrupts its aging predecessor. This is the tidal wave of opportunity we see, a generation after the last one that took place in the mid 90's. Get ready!
The Internet of Things arrived last decade when the number of devices (that can connect) outnumbered the world population. We have now entered a new age. The evolution from #virtualization to #cloud to #IoT and #BigData a consequence of the Moore Nielsen prediction and the rise of Fog Computing. The role of #OpenSource and #OpenStandards and the importance of the new trend: Open Data as the only way to keep sanity in Big Data. This is my presentation at the IEEE International Conference on Cloud Engineering in Boston on Pi Day 2014
Turtles all the Way Up – From OSGi bundles to Fog Computing - Tim Ward (Paremus)mfrancis
OSGi Community Event 2018 Presentation by Tim Ward (Paremus)
Abstract: The model of centralized cloud compute is changing. As large-scale IoT deployments have started to become real organizations are realizing that a single central cloud can’t cope with the data security, data volumes, latency or robustness that they need for their businesses. Centralizing in a single cloud also offers a huge operational risk – if the cloud fails, their business must continue!
This talk will introduce BRAIN-IoT, an EU Horizon 2020 funded project. BRAIN-IoT uses the latest OSGi R7 specifications to create an adaptive modular “Fog” environment with decentralized data processing and decision making. We’ll review the current design decisions made by the BRAIN-IoT team, including the issues concerning generic Edge Device discovery & integration, and see how they can be applied across different IoT use cases, including Smart Utilities and Industry 4.0 Factories of the Future.
In this presentation, Naveen introduces fog computing and how it can enable the functioning of IoT devices. Naveen's interest area lies in improving network security in IoT devices.
Get Cloud Resources to the IoT Edge with Fog ComputingBiren Gandhi
Fog Computing as a foundational architectural concept for Internet of Things (IoT) and Internet of Everything (IoE).
Embedded devices in the IoT are hampered by the compute, storage, and service limitations of living life on the edge. As IoT edge devices comprise broader sensor networks for industrial automation, transportation, and other safety critical applications, their high uptime requirements are nonnegotiable and service latencies must be kept within realtime or near real time parameters. However, the size, weight, power, and cost constraints of edge platforms also inhibit the ondevice resources available for executing such functions. In this session, Gandhi will introduce Fog Computing, a new paradigm for the IoT that extends compute, storage, and application resources from the cloud to the network edge. Beyond the interplay between Fog and Cloud, Gandhi will show how Fog services can be leveraged across a range of heterogeneous platforms—from end user devices and access points to edge routers and switches—through software technology that facilitates the collection, storage, analysis, and fusion of data to drive success in your next IoT device deployment.
Edge computing is a method of enabling small processing units near to the source of the data from sensors and central data servers. It utilizes cloud computing systems by performing data processing at the edge of the network, near the source of the data. This reduces the communications bandwidth needed between sensors by performing analytics and data processing.
【2016 Bay Area參訪報告】Accelerators trip in bay areaMAKERPRO.cc
主講人:Ray Tai
邁特電子的Ray和Triple同仁一同走訪了矽谷多家全球知名的硬體加速器,包括HAX、Highway 1、Bolt+Autodesk、Tandem及Plug and Play等等,看到他們實實在在的團隊輔導計畫,也看到台灣的機會與挑戰。
活動網頁:http://www.accupass.com/go/makerpro20160613
(Slide之數字大部分來自官網或是相關人士提供, 若是要使用這些數字內容請自行斟酌)
Ericsson Technology Review: Tackling IoT complexity with machine intelligenceEricsson
IoT-based systems will require a high level of decision making automation both in terms of infrastructure management and within the logic of the IoT applications themselves. Decision support systems (DSSs) are an essential tool in this context on account of their ability to enhance human decision-making processes with machine intelligence. The cognitive automation framework that we have created at Ericsson speeds up the development and deployment of intelligent DSSs by reusing as much knowledge as possible, including domain models, behaviors and reasoning mechanisms. The framework substantially reduces operational costs for IoT-based system management by enabling DSSs to make decisions about how to adapt to changes in their context and environment with minimal or no human interaction.
Are you ready for IoT disruption? by Ana SeliškarBosnia Agile
Digitization is redefining industries. Every business, city and country will become digital. Trends show that by 2020 50 billion devices will be connected. This growth of IoT requires compute and storage close to the end devices for several reasons – data reduction, resiliency, latency and scale. All those can be addressed by fog computing uniquely enabled by Cisco as one of six pillars of Cisco IoT System which provides the technologies and software you need to deploy, accelerate, and innovate in the era of IoT.
Microsoft Telecommunications Newsletter | December 2021Rick Lievano
Across industries, organizations are venturing deeper into their digital transformation journeys every day, and the telco industry is no exception. Microsoft is front-and-center helping to lead the transition of mobile networks to an open, disaggregated, and software-based model, leveraging Azure for Operators as the platform of choice. In this edition, you’ll find numerous stories about telcos transitioning IT, BSS, OSS, and their most critical network workloads to the cloud—and how Microsoft and partner solutions are key to those efforts.
This transformation doesn’t stop with core services, but it extends to innovative solutions that generate new revenue streams for operators. In this place where cloud meets the edge, compute meets mobile, and 5G trends continue to drive innovation, customer demand for advanced network capabilities is surging. Azure Edge Zones with AT&T is a great example of how Microsoft partners with operators to dramatically improve an application’s performance while reducing overhead and complexity for enterprise customers. And our extensive portfolio of private network offerings, cited as the most innovative globally in a recent Omnia report, provide operators new private LTE/5G solutions to bring to market.
Finally, we’d like to welcome Francesco Venturini to the Microsoft family as the executive leader for Media & Communications, and we look forward to working alongside him. Wishing you all a safe and happy holiday season.
Michael enescu keynote chicago2014_from_cloud_to_fog_and_iotMichael Enescu
Just as we became familiar with Cloud computing and the dominant role of Open Source, a new compute model has emerged, an extension of the Cloud to the Edge of the network, some call it Fog computing, others the Internet of Things or IoT. Open Source will also play a dominant role in this, as it does in the Cloud, but what exactly is it, and what does it mean in IoT. How is the model changing as the new generation of devices has stretched what we previously knew as Cloud compute. And most importantly, why, what, and how the new IoT-specific Service Provider (IsSP?) model emerges and disrupts its aging predecessor. This is the tidal wave of opportunity we see, a generation after the last one that took place in the mid 90's. Get ready!
The Internet of Things arrived last decade when the number of devices (that can connect) outnumbered the world population. We have now entered a new age. The evolution from #virtualization to #cloud to #IoT and #BigData a consequence of the Moore Nielsen prediction and the rise of Fog Computing. The role of #OpenSource and #OpenStandards and the importance of the new trend: Open Data as the only way to keep sanity in Big Data. This is my presentation at the IEEE International Conference on Cloud Engineering in Boston on Pi Day 2014
Turtles all the Way Up – From OSGi bundles to Fog Computing - Tim Ward (Paremus)mfrancis
OSGi Community Event 2018 Presentation by Tim Ward (Paremus)
Abstract: The model of centralized cloud compute is changing. As large-scale IoT deployments have started to become real organizations are realizing that a single central cloud can’t cope with the data security, data volumes, latency or robustness that they need for their businesses. Centralizing in a single cloud also offers a huge operational risk – if the cloud fails, their business must continue!
This talk will introduce BRAIN-IoT, an EU Horizon 2020 funded project. BRAIN-IoT uses the latest OSGi R7 specifications to create an adaptive modular “Fog” environment with decentralized data processing and decision making. We’ll review the current design decisions made by the BRAIN-IoT team, including the issues concerning generic Edge Device discovery & integration, and see how they can be applied across different IoT use cases, including Smart Utilities and Industry 4.0 Factories of the Future.
In this presentation, Naveen introduces fog computing and how it can enable the functioning of IoT devices. Naveen's interest area lies in improving network security in IoT devices.
Get Cloud Resources to the IoT Edge with Fog ComputingBiren Gandhi
Fog Computing as a foundational architectural concept for Internet of Things (IoT) and Internet of Everything (IoE).
Embedded devices in the IoT are hampered by the compute, storage, and service limitations of living life on the edge. As IoT edge devices comprise broader sensor networks for industrial automation, transportation, and other safety critical applications, their high uptime requirements are nonnegotiable and service latencies must be kept within realtime or near real time parameters. However, the size, weight, power, and cost constraints of edge platforms also inhibit the ondevice resources available for executing such functions. In this session, Gandhi will introduce Fog Computing, a new paradigm for the IoT that extends compute, storage, and application resources from the cloud to the network edge. Beyond the interplay between Fog and Cloud, Gandhi will show how Fog services can be leveraged across a range of heterogeneous platforms—from end user devices and access points to edge routers and switches—through software technology that facilitates the collection, storage, analysis, and fusion of data to drive success in your next IoT device deployment.
Edge computing is a method of enabling small processing units near to the source of the data from sensors and central data servers. It utilizes cloud computing systems by performing data processing at the edge of the network, near the source of the data. This reduces the communications bandwidth needed between sensors by performing analytics and data processing.
【2016 Bay Area參訪報告】Accelerators trip in bay areaMAKERPRO.cc
主講人:Ray Tai
邁特電子的Ray和Triple同仁一同走訪了矽谷多家全球知名的硬體加速器,包括HAX、Highway 1、Bolt+Autodesk、Tandem及Plug and Play等等,看到他們實實在在的團隊輔導計畫,也看到台灣的機會與挑戰。
活動網頁:http://www.accupass.com/go/makerpro20160613
(Slide之數字大部分來自官網或是相關人士提供, 若是要使用這些數字內容請自行斟酌)
Protecting the Children's Rights to Basic Education and Health Facilities in ...Imam-Tamim Esq.
Both the Islamic law and the Nigerian Constitution recognise provision of education and health facilities as primary responsibility of a welfare state. Despite having institutionalised the operation of Islamic law in many northern Nigerian states, the region still has the highest number of out-of-school children as well as high rate of child mortality. The states argue that they could not fulfill their obligation because they do not have financial resources. The paper proposes that the northern region states should explore the possibility of harnessing the socioeconomic potential of zakat and waqf to provide these basic rights for the children. It also suggest the strategic pathway that will make the proposal workable.
Tips on designing for the Internet of ThingsDesign World
Bimba, TI, and Opto22 are heavily involved in developing products with and for the Internet of Things. In this webinar you will hear stories from the trenches on how they have approached the IoT and what they have learned in the process.
Re-positioning the role and place of malaysian Women for National Development...Imam-Tamim Esq.
The place of women in decision making at various strata of living has been a front burner issue in the current milieu. The number of women allowed to participate in nation building worldwide is abysmally low especially in Malaysia where the women are culturally believed to be better suited for the role of home makers. Various researches have however shown that women are naturally made to contribute to development both domestically and nationally. Other Researches have equally shown that the women have been facing challenges in assuming political positions where they can adequately and practically contribute to national development as a result of certain socio-political and cultural challenges. This paper therefore investigates the factors that contribute to the inhibition of women in this regard despite their landmark educational progression and achievement. The paper argues that Malaysia will profit in its national development and nation building programmes if more women are allowed to participate in national governance. This will be achieved by harnessing the traditional roles of women in the family life for the benefit of the nation.
Presentation about XSF & how to create an XMPP Standard Track Protocol Extension for the ISO/IEC/IEEE Smart Transducer Interface Standard working group, for sensors, actuators and network devices (XMPP protocol)
Second screen, multi screen using XMPP. What is second screen, why is this popular both for the consumers and for the streaming companies? Why should you use XMPP for doing the second screen experience and why not DIAL or other protocols.
With the increase of popularity of the Cloud Computing, we propose an XMPP-based approach for the development and implementation of Cloud services.
XMPP offers many advantages over a basic HTTP+REST approach, allowing easy access to distributed and federated environments, real asynchronous services and information push toward consumers without resorting to HTTP tricks like Comet or WebSocket.
gogonetlive 4 conference keynote on Internet of ThingsJoachim Lindborg
In this keynote session I talk about IP as a driver for internet of things and that Internet of things will drive the IPv6 usage forward. presentation held at http://gogonetlive.com/gogonetlive-speakers.asp
Your upcoming IoT project can significantly profit from using .NET, as there are several advantages to doing so. The platform is an excellent option for creating intricate systems because of its scalability and versatility.
Why don't you have all your home devices connected to the internet yet? Here we will present the KNoT meta-platform, an interoperability solution for IoT.
What you need to know about protocols and how to build your own open-source protocols
Our world is on a fast track to incredible changes, especially in technology.
As developers, we used to help build machines. Then we started building websites for businesses to represent them to a larger audience. Then we started building apps for every other product, sometimes more than one.
In our new digital world, the next generation of developers won’t be building apps. We will be building protocols – middleware that enables decentralized applications (dApps) – and interfaces for the protocols. The world wide web is branching into decentralized networks and these networks will host countless protocols to play around with.
This talk will cover how protocols work in decentralized networks, highlight a few important use-cases, and explain how to build your own open-source protocols on one of the most prominent DLTs of our times: IOTA.
Session 1908 connecting devices to the IBM IoT CloudPeterNiblett
IBM MessageSight and the IBM Internet of Things cloud enable connectivity across a wide variety of devices - from existing devices in silos and systems through the wide range of new devices that are appearing on a daily basis. This session covers patterns of connectivity, how to make it happen, including sending events like measurements and receiving of commands. The session goes into detail on how to use the industry standard MQ Telemetry Transport protocol to achieve this and encompasses best practices for topics and message format.
Internet Of Things(IoT) is emerging technology in future world.The term IoT comprises of Cloud computing, Data mining,
Big data analytics, hardware board. The Security and Interoperability is a main factor that influences the IoT Enegy
consumption is also main fator for IoT application designing.The various protocols such as MQTT,AMQP,XMPP are used in
IoT.This paper analysis the various protocols used in Internet of Things.
OSGi & Java in Industrial IoT - More than a Solid Trend - Essential to Scale ...mfrancis
OSGi Community Event 2016 Keynote Presentation by Robert Andres (Eurotech) & Walter Hofmann (Hitachi High Technologies)
With the promise of “real” IoT, the requirements for computational capabilities and agility at the edge demand IT-centric architectures and solutions that are based on open and industry standards. “IoT stacks” that are built on OSGi and Java’s solid foundation ensure effective modular software development and management on abstracted hardware.
Total cost of ownership in these IoT solutions matters a lot more than the simple combined hardware and software cost per edge node. Sophisticated software elements – including business intelligence tools, databases, and analytics packages – leverage data remotely and centrally to achieve the best results for customers. A perfect example of an analytics solution using such an approach is the predictive maintenance solution that Hitachi offers, leveraging Eurotech’s IoT hardware and software building blocks that heavily rely on OSGi.
Similar to XMPP a Unified Fabric for Internet Of Things (20)
APNIC Foundation, presented by Ellisha Heppner at the PNG DNS Forum 2024APNIC
Ellisha Heppner, Grant Management Lead, presented an update on APNIC Foundation to the PNG DNS Forum held from 6 to 10 May, 2024 in Port Moresby, Papua New Guinea.
Bridging the Digital Gap Brad Spiegel Macon, GA Initiative.pptxBrad Spiegel Macon GA
Brad Spiegel Macon GA’s journey exemplifies the profound impact that one individual can have on their community. Through his unwavering dedication to digital inclusion, he’s not only bridging the gap in Macon but also setting an example for others to follow.
Italy Agriculture Equipment Market Outlook to 2027harveenkaur52
Agriculture and Animal Care
Ken Research has an expertise in Agriculture and Animal Care sector and offer vast collection of information related to all major aspects such as Agriculture equipment, Crop Protection, Seed, Agriculture Chemical, Fertilizers, Protected Cultivators, Palm Oil, Hybrid Seed, Animal Feed additives and many more.
Our continuous study and findings in agriculture sector provide better insights to companies dealing with related product and services, government and agriculture associations, researchers and students to well understand the present and expected scenario.
Our Animal care category provides solutions on Animal Healthcare and related products and services, including, animal feed additives, vaccination
1.Wireless Communication System_Wireless communication is a broad term that i...JeyaPerumal1
Wireless communication involves the transmission of information over a distance without the help of wires, cables or any other forms of electrical conductors.
Wireless communication is a broad term that incorporates all procedures and forms of connecting and communicating between two or more devices using a wireless signal through wireless communication technologies and devices.
Features of Wireless Communication
The evolution of wireless technology has brought many advancements with its effective features.
The transmitted distance can be anywhere between a few meters (for example, a television's remote control) and thousands of kilometers (for example, radio communication).
Wireless communication can be used for cellular telephony, wireless access to the internet, wireless home networking, and so on.
This 7-second Brain Wave Ritual Attracts Money To You.!nirahealhty
Discover the power of a simple 7-second brain wave ritual that can attract wealth and abundance into your life. By tapping into specific brain frequencies, this technique helps you manifest financial success effortlessly. Ready to transform your financial future? Try this powerful ritual and start attracting money today!
Meet up Milano 14 _ Axpo Italia_ Migration from Mule3 (On-prem) to.pdfFlorence Consulting
Quattordicesimo Meetup di Milano, tenutosi a Milano il 23 Maggio 2024 dalle ore 17:00 alle ore 18:30 in presenza e da remoto.
Abbiamo parlato di come Axpo Italia S.p.A. ha ridotto il technical debt migrando le proprie APIs da Mule 3.9 a Mule 4.4 passando anche da on-premises a CloudHub 1.0.
3. Founders
Internet
Rikard Strid
CEO
For more then 15 years Rikard has been working with
Internet Of Thing and Internet applications. His first
Start-Up was about Smart Home and Energy
applications, which is provided by TeliaSonera on IPTV. In
2010 Rikard founded Clayster together with Peter Waher
to create a unified infrastructure for Everything on the
Internet. With a vision to normalize technologies and
protocols for a more homogeneous Internet where data
can coexist and exchange information seamless. His
mission is to create a Internet that meets the demands
of high integrity and security, at the same time as we
enter a era with trillions connected things.
Peter Waher
CTO
For more then 30 years Peter has been working with Internet
Of Thing and Internet applications. In his past he has
developed AMR and M2M platforms for ABB. With Clayster
Peter wants to enable Rapid Application Development to a
new level, where the platform automatically solves most of
the repetitive tasks developers are confronted with in their
development of IoT services, including auto-generation of
code and user interfaces, drastically reducing development
time. The platform is a true web 3.0 platform and consists of
a powerful, flexible and fully extensible multi-protocol
communication engine, application engine, abstraction,
persistence, automation, management, calculation, and
clustering and web API layers, including Semantic Web
technologies. It is uniquely scalable in the sense that it does
not only scale up, but also down. Peter is lead writer to make
XMPP the core protocol for IoT.
4. About
Internet
We provide platforms and frameworks for rapid
development to unify Everything on the Internet for
innovations to be created. Our customers has chosen
our technology to be on the edge into the future of
Internet. The future of Internet is not about a single
technology or protocol, but to make them coexist.
6. XMPP has proven to be the No. 1 protocol for people to communicate, now it’s time for Things to get
the same advantage. With high scalability, interoperability, and security we are able to do what was
not possible when we relayed on HTTP. XMPP Foundation and XSF is a global collaboration to
standardize extensions for XMPP to meet the needs from a protocol to handle trillions of Things
communicating.
Internet
Unifier
7. XEP-0322 – EXI Compression
XEP-0323 – Sensor Data
XEP-0324 – Provisioning
XEP-0325 – Control
XEP-0326 – Concentrator
XEP-0332 – HTTP over XMPP
XEP-0336 – Dynamic Forms
ISO/IEEE/IEC P21451-1-4
Internet
Standard
8. We can not depend on a single protocol or
technology when we create solutions for the
future. Data and information must be
normalized in a secured environment, in
which we then can adopt services and
applications.
Internet
Unify Data
10. Internet
Clayster Include
XMPP is the core into which we normalize
data from different sources and make it
available in unified fabric. The Include
platform abstracts and transforms any data
source to coexist in a data normalized
infrastructure.
12. Internet
Clayster Expose
The Expose platform enables to access
information and to develop solution that
exist within the normalized data fabric by
using Web Service API or Semantic Web
technologies (e.g. SPARQL). This solution is
for those who are not ready to develop by
using XMPP, and XEPs yet.
14. Internet
Clayster Provisioning
Provisioning is the place where data is
secured to who and when it is exposed to
access. Before someone can enter the fabric
of data, first access must be accepted by the
thing or data owner.
16. Internet
Clayster Applications
A application platform that provide
capabilities to access data fabrics of
normalized data agnostic to where it comes
from. Applications are consumed by the user
independent of what screen they chose.
Applications can either be hosted centralized
or distributed to the device.
18. Internet
Clayster Management
To be in full control of everything that
happens in the data fabric. Management of
data and applications is change forever. The
m a n a g e m e n t t o o l i s fl e x i b l e t o
customization to adopt different domains
and use cases.
20. Clayster Wiki
Internet
Clayster believes is in distributed
development, and therefor to give
developers full advantage of our technology
by providing a SDK and Wiki. We provide
source code for developers to modify and
adopt our platform for their needs.
Everything to make Internet as unified and
adoptable as possible.
22. Internet
Clayster Framework
A framework to adopt and scale all the
demands for Internet Of Everything. It can
be scaled from low power device to clustered
centralized environment. It is the core of our
solutions, and it enables organizations to
rapidly developed and adopt to their market
demands.
26. Internet
Use Case
Our customers use our technology in
different domains to deliver state of art
product and services to their customers.
Some of the use cases are; AMR/AMI,
Energy Control, SCADA, IPTV, Home Control,
OPC Server, Building Automation, BigData,
etc.
27. Internet
KTC Control – Energy Management
AMR/AMI
SCADA
IMC
Meter
The IMC connects every system in the
building, and based on known
information about build it takes
decisions to save energy.
Supports the most important
automation protocol on the market.
28. Internet
Manodo – Connected Home App’s
VoD Stream
Live Stream
DRM
Applications
ProvisioningClayster
3rd Party