Transforming businesses as
the Internet of Things expands
As a global electronics company, we understand the
issues facing the high-tech industry and the continuous
transformation required to thrive. Across the industry,
companies are turning their attention from smartphones and
tablets to a new generation of connected devices that will
transform not just the Electronics industry, but many others.
The IBM Global Electronics practice uniquely combines IBM
and partner services, hardware, software and research into
integrated solutions that can help you deliver innovation,
create differentiated customer experiences and optimize
your global operations.
This overview is a compilation of my own storytelling experiences over the past 9 years, first assisting clients designing M2M devices and helping them navigate the carrier certification process, then aligning with emerging Middleware/IOT Cloud platform providers early in 2011. Since then I've consulted and assisted companies across many IOT market verticals and have delivered keynotes to many audiences including enterprises, Tier 2 and Tier 3 service providers, MSO's and Utility companies on how to deploy a carrier grade IOT service delivery model for the creation of new MRR models across all market verticals. Whether you are attempting to enter the market by aligning with an existing IOT ECO-System provider like AWS or would like to create your own, I hope you find this thought provoking and informative as we carve our way into the wild, wild future of digital transformation.
Emerging Technologies: Changing how we live, work and play EY-Mint Emerging ...eraser Juan José Calderón
Emerging Technologies: Changing how we live, work and play
EY-Mint Emerging Technologies Report 2019.
Una gran cantidad de tecnologías emergentes está dando forma a nuestras vidas, posiblemente a un ritmo de cambio nunca antes visto en la historia. Habilitado por el poder de cómputo barato y el acceso a grandes conjuntos de datos, las máquinas ya están haciendo un mejor trabajo que los humanos en varias áreas. Esta "inteligencia" se está alejando de las granjas de servidores centrales hacia dispositivos y cosas que pronto se convertirán en parte de nuestra vida cotidiana. Estos dispositivos potencialmente negociarán su propio camino en nuestro mundo a través de "contratos inteligentes" y sin una intervención humana significativa. La información perceptiva superpuesta sobre estos objetos del mundo real nos ayudará a salir de los dispositivos móviles que han captado nuestra atención en este mundo posterior a Internet. Lo que parece único en este momento actual es la rápida adopción de muchas de estas tecnologías habilitadoras y su potencial para trabajar juntos para cambiar nuestras vidas.
MTBiz is for you if you are looking for contemporary information on business, economy and especially on banking industry of Bangladesh. You would also find periodical information on Global Economy and Commodity Markets.
The fourth stage of the Industrial Revolution is upon us due to the far-reaching integration, accelerated by the Internet of Things, of Operational Technology (OT) and Information Technology (IT). This creates completely new opportunities as a result of new combinations of mental, physical and mechanical work by integrating the internet, sensors and embedded systems.
The Internet of Things enabled IT/OT convergence leads to cost reduction as a consequence of predictive maintenance, speed and intelligence, thanks to Machine-to-Machine communication and improved forms of Human-Machine Interaction. M2M interaction between and within machines and systems is the cyber-physical heart of the Fourth Industrial Revolution.
Designing for Manufacturing's 'Internet of Things'Cognizant
The deeper meshing of virtual and physical machines offers the potential to truly transform the manufacturing value chain, from suppliers through customers, and at every touchpoint along the way.
A brief introduction to Internet of Things (IoT) and SMAC (social, mobile, analytics and cloud), the concept that four technologies are currently driving innovation in business.
Internet of Things (IoT): More than Smart “Things”Ahmed Banafa
By 2020, experts forecast that up to 28 billion devices will be connected to the Internet with only one third of them being computers, smartphones and tablets. The remaining two thirds will be other “devices” – sensors, terminals, household appliances, thermostats, televisions, automobiles, production machinery, urban infrastructure and many other “things”, which traditionally have not been Internet enabled.
This “Internet of Things” (IoT) represents a remarkable transformation of the way in which our world will soon interact. Much like the World Wide Web connected computers to networks, and the next evolution connected people to the Internet and other people, IoT looks poised to interconnect devices, people, environments, virtual objects and machines in ways that only science fiction writers could have imagined.
In a nutshell the Internet of Things (IoT) is the convergence of connecting people, things, data and processes is transforming our life, business and everything in between.
This overview is a compilation of my own storytelling experiences over the past 9 years, first assisting clients designing M2M devices and helping them navigate the carrier certification process, then aligning with emerging Middleware/IOT Cloud platform providers early in 2011. Since then I've consulted and assisted companies across many IOT market verticals and have delivered keynotes to many audiences including enterprises, Tier 2 and Tier 3 service providers, MSO's and Utility companies on how to deploy a carrier grade IOT service delivery model for the creation of new MRR models across all market verticals. Whether you are attempting to enter the market by aligning with an existing IOT ECO-System provider like AWS or would like to create your own, I hope you find this thought provoking and informative as we carve our way into the wild, wild future of digital transformation.
Emerging Technologies: Changing how we live, work and play EY-Mint Emerging ...eraser Juan José Calderón
Emerging Technologies: Changing how we live, work and play
EY-Mint Emerging Technologies Report 2019.
Una gran cantidad de tecnologías emergentes está dando forma a nuestras vidas, posiblemente a un ritmo de cambio nunca antes visto en la historia. Habilitado por el poder de cómputo barato y el acceso a grandes conjuntos de datos, las máquinas ya están haciendo un mejor trabajo que los humanos en varias áreas. Esta "inteligencia" se está alejando de las granjas de servidores centrales hacia dispositivos y cosas que pronto se convertirán en parte de nuestra vida cotidiana. Estos dispositivos potencialmente negociarán su propio camino en nuestro mundo a través de "contratos inteligentes" y sin una intervención humana significativa. La información perceptiva superpuesta sobre estos objetos del mundo real nos ayudará a salir de los dispositivos móviles que han captado nuestra atención en este mundo posterior a Internet. Lo que parece único en este momento actual es la rápida adopción de muchas de estas tecnologías habilitadoras y su potencial para trabajar juntos para cambiar nuestras vidas.
MTBiz is for you if you are looking for contemporary information on business, economy and especially on banking industry of Bangladesh. You would also find periodical information on Global Economy and Commodity Markets.
The fourth stage of the Industrial Revolution is upon us due to the far-reaching integration, accelerated by the Internet of Things, of Operational Technology (OT) and Information Technology (IT). This creates completely new opportunities as a result of new combinations of mental, physical and mechanical work by integrating the internet, sensors and embedded systems.
The Internet of Things enabled IT/OT convergence leads to cost reduction as a consequence of predictive maintenance, speed and intelligence, thanks to Machine-to-Machine communication and improved forms of Human-Machine Interaction. M2M interaction between and within machines and systems is the cyber-physical heart of the Fourth Industrial Revolution.
Designing for Manufacturing's 'Internet of Things'Cognizant
The deeper meshing of virtual and physical machines offers the potential to truly transform the manufacturing value chain, from suppliers through customers, and at every touchpoint along the way.
A brief introduction to Internet of Things (IoT) and SMAC (social, mobile, analytics and cloud), the concept that four technologies are currently driving innovation in business.
Internet of Things (IoT): More than Smart “Things”Ahmed Banafa
By 2020, experts forecast that up to 28 billion devices will be connected to the Internet with only one third of them being computers, smartphones and tablets. The remaining two thirds will be other “devices” – sensors, terminals, household appliances, thermostats, televisions, automobiles, production machinery, urban infrastructure and many other “things”, which traditionally have not been Internet enabled.
This “Internet of Things” (IoT) represents a remarkable transformation of the way in which our world will soon interact. Much like the World Wide Web connected computers to networks, and the next evolution connected people to the Internet and other people, IoT looks poised to interconnect devices, people, environments, virtual objects and machines in ways that only science fiction writers could have imagined.
In a nutshell the Internet of Things (IoT) is the convergence of connecting people, things, data and processes is transforming our life, business and everything in between.
Top machine learning trends for 2022 and beyondArpitGautam20
Exciting Machine Learning Trends that will emerge in 2022 & beyond and redefine the way ML Models & ML Technologies are used by enterprises. https://arsr.tech/top-machine-learning-trends-for-2022-and-beyond/
The most important technology industry trend right now is also the greatest source of new business opportunity. As 50 billion devices connect to the Internet globally, three different types of businesses are jockeying for position: Enablers of underlying technology, Engagers that deliver to customers, and Enhancers that devise value-added services unique to the Internet of Things. For more insights, visit www.strategy-business.com
Internet of Things & Hardware Industry Report 2016Bernard Moon
Overview of industry trends and insights of Fortune 500 companies and startups' activities in the Internet of Things (IoT) and hardware space. We cover connected home, wearables, healthcare, robotics & drones, and industrial IoT.
Process oriented architecture for digital transformation 2015Vinay Mummigatti
How the digitally savvy enterprises need to transform their business processes - A paper on architecture and patterns for business and technology audience.
The core of the development of the consumer Internet of Things is to improve user experience, cultivate usage habits, enhance user stickiness, and then obtain more valuable user data and realize data value-added.
In this presentation, Nitika introduces IoT and associated trends. Her interest area lies in applications of IoT to asset sharing, collaborative/ MESH economy and internet of caring things.
We are currently living in times of great transformation. We have over the last couple of decade seen the Internet become the most powerful disrupting force in the world, connecting everyone and transforming businesses. Now everyday objects - things we use are getting smart with sensors and software. And they are connecting. What does this mean?
We will see the world become alive. Cars will talk to road sensors that talk to systems that guide traffic. Plants will talk to weather systems that talk to scientists that research climate change. Farming fields will talk to the farming system that talks to robots that do fertilising and harvesting. Home appliances like refrigerators, ovens, coffee machines and microwaves ovens will talk to the home food and cooking system that will inform the store that you are running out butter, cheese, laundry detergent and coffee beans, which will inform the robot driver to get this to your house after consulting your calendar upon when someone is at home.
In this lecture we explore the Internet of Things, IoT.
Harbor Research recently completed a review of a new
cloud-based platform that takes a refreshingly new
approach to machine data analytics. Glassbeam jumps
ahead of the current market’s noise and confusion about
Big Data by viewing critical machine data analytics from a
business and operational perspective that can be addressed
by a single, scalable solution. In so doing, Glassbeam is
re-defining how value is created from machine data.
The Internet of Things: Impact and Applications in the High-Tech IndustryCognizant
As both makers and users of the Internet of Things (IoT), high-technology companies stand to gain both sales and process efficiencies by deploying IoT technologies throughout their operations. We provide a guide to benefits to be realized by semiconductor fabs, distributors, contract manufacturers and OEMs from IoT enablement and deployment, and a brief road map of first steps.
Top machine learning trends for 2022 and beyondArpitGautam20
Exciting Machine Learning Trends that will emerge in 2022 & beyond and redefine the way ML Models & ML Technologies are used by enterprises. https://arsr.tech/top-machine-learning-trends-for-2022-and-beyond/
The most important technology industry trend right now is also the greatest source of new business opportunity. As 50 billion devices connect to the Internet globally, three different types of businesses are jockeying for position: Enablers of underlying technology, Engagers that deliver to customers, and Enhancers that devise value-added services unique to the Internet of Things. For more insights, visit www.strategy-business.com
Internet of Things & Hardware Industry Report 2016Bernard Moon
Overview of industry trends and insights of Fortune 500 companies and startups' activities in the Internet of Things (IoT) and hardware space. We cover connected home, wearables, healthcare, robotics & drones, and industrial IoT.
Process oriented architecture for digital transformation 2015Vinay Mummigatti
How the digitally savvy enterprises need to transform their business processes - A paper on architecture and patterns for business and technology audience.
The core of the development of the consumer Internet of Things is to improve user experience, cultivate usage habits, enhance user stickiness, and then obtain more valuable user data and realize data value-added.
In this presentation, Nitika introduces IoT and associated trends. Her interest area lies in applications of IoT to asset sharing, collaborative/ MESH economy and internet of caring things.
We are currently living in times of great transformation. We have over the last couple of decade seen the Internet become the most powerful disrupting force in the world, connecting everyone and transforming businesses. Now everyday objects - things we use are getting smart with sensors and software. And they are connecting. What does this mean?
We will see the world become alive. Cars will talk to road sensors that talk to systems that guide traffic. Plants will talk to weather systems that talk to scientists that research climate change. Farming fields will talk to the farming system that talks to robots that do fertilising and harvesting. Home appliances like refrigerators, ovens, coffee machines and microwaves ovens will talk to the home food and cooking system that will inform the store that you are running out butter, cheese, laundry detergent and coffee beans, which will inform the robot driver to get this to your house after consulting your calendar upon when someone is at home.
In this lecture we explore the Internet of Things, IoT.
Harbor Research recently completed a review of a new
cloud-based platform that takes a refreshingly new
approach to machine data analytics. Glassbeam jumps
ahead of the current market’s noise and confusion about
Big Data by viewing critical machine data analytics from a
business and operational perspective that can be addressed
by a single, scalable solution. In so doing, Glassbeam is
re-defining how value is created from machine data.
The Internet of Things: Impact and Applications in the High-Tech IndustryCognizant
As both makers and users of the Internet of Things (IoT), high-technology companies stand to gain both sales and process efficiencies by deploying IoT technologies throughout their operations. We provide a guide to benefits to be realized by semiconductor fabs, distributors, contract manufacturers and OEMs from IoT enablement and deployment, and a brief road map of first steps.
The Internet of Things (IoT) is actively shaping both the industrial and consumer worlds. Smart tech finds its way to every business and consumer domain there is — from retail to healthcare, from finances to logistics — and a missed opportunity strategically employed by a competitor can easily qualify as a long-term failure for companies who don’t innovate.
Check out more articles at- https://insideaiml.com/articles
The Internet of Things (IoT) is actively shaping both the industrial and consumer worlds. Smart tech finds its way to every business and consumer domain there is-from retail to healthcare, from finances to logistics-and a missed opportunity strategically employed by a competitor can easily qualify as a long-term failure for companies who don't innovate. Check out our latest PPT for more details.
Impact of the Internet of Things on ManufacturersPTC
We live in a smart, connected world. As products have evolved, their capabilities have multiplied, creating new forms of value and even doing things well beyond their primary function. The impact is a fundamental transformation of how manufacturers create and exchange value with customers. Those who don’t participate place their current competitive advantage at risk.
About SIGFOX
SIGFOX is the first and only operator of a cellular network fully dedicated to low throughput communication for connected objects. Leveraging on its patented UNB technology SIGFOX brings a revolution to the M2M and Internet of Things world by enabling large-scale connection of objects. The network already connects tens of thousands of objects in France and international cities.
SIGFOX provides an end-to-end solution for your communication chain, from your objects through to your information system, with unprecedented pricing models and low energy consumption.
As a network operator SIGFOX operates fixed-location
transceivers enabling your objects to be connected “out of the box”. However contrary to the telecommunication networks, the SIGFOX transceivers and the entire SIGFOX connectivity solution has been developed, built and deployed to only serve the low throughput M2M and IoT applications. As an operated longrange network, SIGFOX provides connectivity without the need to deploy specific network infrastructures for each application.
Unlike other narrow band or white space solution providers we do not require our customers to invest in network equipment, the SIGFOX network is simply available to any object equipped with our certified connectivity solutions.
From an application point of view, the SIGFOX connectivity solution functions as follows:
• SIGFOX compatible modems are integrated within the physical objects by our certified partner network
• The objects instruct the modems to send messages whenever and wherever needed
• The transmitted data is picked up by the SIGFOX transceivers, and routed to our managed service
• The SIGFOX servers verify the data integrity and route the messages to the application’s IT system.
(...)
Sample use cases.
MAAF Assurances, one of the leading French insurance companies, anticipate the upcoming regulation that will impose by 2015 that each household be equipped with a smoke detector. The fire and/or intrusion alert service that will be using the SIGFOX network will enable MAAF insured customers to be warned directly through SMS, in case the intrusion or smoke detectors send alarms and allow MAAF and their customers to be alerted if there is an anomaly, such as low battery, with the
smoke detector.
Clear Channel Outdooroperates stations throughout France. In order to avoid constant manual inspection of the ad stations, a remote monitoring application has been deployed and the SIGFOX network is used to communicate status information from each ad station to the IT system.
For further info:
• contact@sigfox.com
• www.sigfox.com
After reading the Top 14 IoT Trends to Emerge in 2023 article, you will learn about what the 14 IoT Trends will be happening.
What is IoT?
The Internet of Things (IoT) is a system of connected devices, digital machines, and users with unique identifiers and network transportability that eliminates the need for human-to-human or human-to-machine interaction.
IoT is an important part of the new generation of information technology. Unlike the Internet, the main application objects of IoT are some physical devices, such as vehicles, home appliances, buildings, etc.
By embedding electronic software, sensors and some network connection devices in these physical devices, the exchange of data between devices can be realized, thus establishing a set of interconnected networks.
According to statistics, more than 43 billion devices are currently expected to be connected to the IoT worldwide, which will generate, share, collect and help people use data in a variety of ways.
The 14 most important IoT trends
Here are the 14 most important IoT trends that will change the world in 2023.
Edge computing is redefining the cloud computing space. The growing de-emphasis on the cloud’s role in connected environments is expected to lead to smarter and faster autonomous solutions that have the potential to reshape the IoT landscape. Edge computing will transform the IoT landscape into a hyperconnected environment where the restrictions related to latency and computation capacity will be eliminated. Many companies are transforming their business models to attain edge computing capabilities necessary for offering end to end services.
The recent years have witnessed a number of mergers and acquisitions in the edge computing space for IoT services, with the increase in M&A activities representing the industry’s conundrum of cloud, edge, and hybrid architectures, and the race to achieve a considerable market share.
This report includes an analysis of approximately 60 deals, along with a detailed technology overview and the purpose of the acquisitions. The M&A analysis section offers a comprehensive view of the transactions around edge computing, covering different technology aspects including data center, AI, security, software-defined WAN (SD-WAN), analytics, interoperability, multi-access edge computing (MEC), and others.
To purchase the full report, write to us at info@netscribes.com
In the coming years, IoT will look completely different than it does today. IoT is a greenfield market.
New players, with new business models, approaches, and solutions, can appear out of nowhere and overtake incumbents.
Report 3 the fourth industrial revolution - things to tighten the link betwe...Rick Bouter
This report was all about the fourth stage of the Industrial Revolution made possible by the far-reaching integration of Operational Technology (OT) and Information Technology (IT). The IT/OT convergence and the end-to-end ecosystems that are under development – from design and production to client interaction and advanced Maintenance, Repair & Overhaul (MRO) – enable a future in which appliances, devices, things and machines for professionals and private people will communicate with central systems, with one another, and with users for the purpose of providing the best possible facilities to makers, service providers, legislators and customers.
Source, Sogeti ViNT: http://vint.sogeti.com/internet-things-4-reports/
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.
The Internet Of Things will have an increasing impact to all industries and health and fitness are no exception. This definitive guide provides a blue print for the things we all need to keep in mind as we adopt the IOT revolution.
To keep pace in a rapidly evolving marketplace, organizations must innovate faster than ever.
Companies today are making their services and data available through web APIs to internal and
external developers, creating higher value and new ecosystems. In this paper, we’ll discuss the
transformational effect APIs have had in the marketplace at large, the data they’re capable of
uncovering, and how companies are applying that data to create intelligent APIs to drive business.
Bitcoin: A Peer-to-Peer Electronic Cash System
Satoshi Nakamoto
satoshin@gmx.com
www.bitcoin.org
Abstract.
A purely peer-to-peer version of electronic cash would allow online
payments to be sent directly from one party to another without going through a
financial institution. Digital signatures provide part of the solution, but the main
benefits are lost if a trusted third party is still required to prevent double-spending.
We propose a solution to the double-spending problem using a peer-to-peer network.
The network timestamps transactions by hashing them into an ongoing chain of
hash-based proof-of-work, forming a record that cannot be changed without redoing
the proof-of-work. The longest chain not only serves as proof of the sequence of
events witnessed, but proof that it came from the largest pool of CPU power. As
long as a majority of CPU power is controlled by nodes that are not cooperating to
attack the network, they'll generate the longest chain and outpace attackers. The
network itself requires minimal structure. Messages are broadcast on a best effort
basis, and nodes can leave and rejoin the network at will, accepting the longest
proof-of-work chain as proof of what happened while they were gone.
Ibm systems servidor linux power8 de 1u ibm power system s821 lc un servidor ...Diego Alberto Tamayo
Características principales
●●●●Integre dos procesadores IBM® POWER8 en un formato 1U para cargas de trabajo con uso intensivo de computación●●●●Ofrezca densidad para implementaciones de virtualización, base de datos y computación de alto rendimiento (HPC)●●●●Despliegue sistemas de elevada versatilidad para gran diversidad de cargas de trabajo de servidores, que abarcan desde procesamientos de transacciones en línea (OLTP), hosting web y elevado rendimiento de big data.
Foreword
This paper is the result of a research project carried out by Labs
in EVRY Financial Services during the fall of 2015. The content of
this report is the result of a comprehensive study, featuring online
sources, literary works, as well as recordings of financial
conferences such as Consensus 2015 and Fintech Week 2015.
We aim to provide a comprehensive report detailing the
opportunities, challenges and key success factors for financial
institutions looking to leverage the opportunities presented by
blockchain technology.
We hope you enjoy this study and that it helps give you greater
understanding.
Investment Interest in Blockchain
• Blockchain has the potential to reduce infrastructure
cost by up to $20 billion a year.
• P2P money Transfer across international borders -
segment worth $500 B.
• Anderseen Horowitz ( VC firm) has invested over USD
$100 million into Blockchain technology
• All time Public/VC investment into Blockchain startups -
$894 million.
• Over 4000 active fintech startups in the NY arena and
investment in the sector tripling last year to $12 billion.
“Over the past two decades, the Internet has
revolutionized many aspects of business and
society... Yet the basic mechanics of how people
and organizations execute transactions… have
not been updated for the 21st century. Blockchain
could bring to those processes the openness and
efficiency we have come to expect
in the Internet Era.”
—Arvind Krishna
Senior VP, IBM Research
Blockchain rewires financial markets
How IBM can help
As one of the world’s leading research organizations, and one of the world’s top contributors to open source projects, IBM is committed to fostering the collaborative effort required to transform how people, governments and businesses transact and interact.
IBM provides clients the consulting and systems integration capabilities to design and rapidly adopt distributed ledgers, digital identity and blockchain solutions. IBM helps clients leverage the global scale, business domain expertise, and deep cloud integration experience required for the application
of these technologies. Learn more at ibm.com/blockchain
Ibm elastic storage server moderno sistema de almacenamiento definido por s...Diego Alberto Tamayo
Características principales
●●●●Aumente su productividad compartiendo datos entre distintas cargas de trabajo con un grupo de almacenamiento unificado para cargas de trabajo de archivos, objetos y Hadoop●●●●Aumente la escala y/o el r endimiento en bloques de construcción modulares con balanceo automatico de carga de trabajo●●●●Reconstruya discos con fallos con la tecnología Declustered Array redundante de discos independientes (RAID) basada en codificación del borrado desarrollada por IBM®●●●●Aloje múltiples inquilinos, ajuste la asignación de recursos y amplíe la escala a medida que evolucionen sus necesidades●●●●Utilice un sistema integrado construido sobre software para servidores IBM Power e IBM Specturm Scale●●●●Reduzca los tiempos de copia de seguridad y restauración utilizando un objetivo de copia de seguridad de alto rendimiento●●●●Elimine el aumento incontrolado de archivadores y los cuellos de botella habituales en los sistemas de almacenamiento conectados en red (NAS).
Ibm flash system a9000 una solución todo f lash altamente paralela para empre...Diego Alberto Tamayo
Características principales
●● ● ●Benefíciese del rendimiento de una
arquitectura altamente paralela y la
tecnología IBM® FlashCore combinadas
en un sistema innovador
●● ● ●Optimice la gestión económica del
almacenamiento con supresión de
patrones, deduplicación y compresión
●● ● ●Evite problemas de ‘vecinos ruidosos’
con funciones de calidad del servicio
(QoS) que admiten multipropiedad y
cargas de trabajo mixtas
●● ● ●Consiga un rendimiento extremo y
uniformes para satisfacer acuerdos de
nivel de servicio (SLA) para cargas de
trabajo imprevisibles y que hacen un uso
intensivo de los datos
●● ● ●Integre fácilmente con plataformas
VMware, OpenStack, Linux y Microsoft, y
prácticamente con cualquier
infraestructura existente
●● ● ●Simplifique la administración del
almacenamiento con la nueva e
innovadora interfaz de usuario.
IBM Object Storage and Software Defined Solutions - CleversafeDiego Alberto Tamayo
Digital Content Growth
• Continued growth in graphical content creation
• Multi-device and HD/4K/8K make it even more challenging to store and process data
• Time & location shifting: viewing on individual schedule
• Content life-cycle management provides a balance between cost & performance
while maintaining customer experience
• Meta data availability and access
• Digital disruption with Over The Top (OTT) digital only competitors - new business
models
• OTT viewing will grow from representing 3.4% of TV viewing hours in 2013 to
20.4% by 2017 in NA
• 63% stream on-demand media more than weekly
• Security and data protection are big issues.
• File sharing declines with legal on-demand options
• Connection speeds are increasing making new options possible
COLDCHAIN“Bringing high-quality vaccines and refrigerated medicine to patient...Diego Alberto Tamayo
Create a system to track the temperature of vaccine using Smart IoT Edge
devices, Smart IoT cloud Eco Systems, Blockchain and Smart Analytics from
manufacturing to storage to transport to consumption – Reduce Wastage and
Improve distribution and lower Inventory!
Highlights
●● ● ●Complete: combining compute, interconnect,
storage and system software
●● ● ●Modular and Extensible: match the
right combination of components and
configurations to meet your workload
●● ● ●Integrated: racked and tested in
IBM manufacturing to reduce time to
compute
Clients value IBM’s unique strengths in
business process transformation and
hybrid cloud technology
IBM’s approach to hybrid cloud enables clients
to put data to work for better decision making
and competitive advantage
IBM is ideally-positioned to satisfy end-to-end enterprise
requirements for the growing hybrid cloud: infrastructure,
application development, data, security, visibility and control
“Growth and comfort
do not co-exist”1
The world economy continues its transformation as
companies’ global operating footprints evolve based
on new opportunities, challenges and technology.
With growing political uncertainty, as well as new risks
and disruption ushered in by evolving technologies,
companies have to navigate an increasingly complex
international operating environment. This tenth edition
of IBM’s Global Location Trends report outlines the
latest trends in corporate location selection and how
today’s global dynamics influence where companies
locate, expand their businesses and create jobs
around the world.
Learning to trust artificial intelligence systems accountability, compliance ...Diego Alberto Tamayo
It’s not surprising that the
public’s imagination has
been ignited by Artificial
Intelligence since the term
was first coined in 1955.
In the ensuing 60 years,
we have been alternately
captivated by its promise,
wary of its potential for
abuse and frustrated by
its slow development.
The ecosystem equation collaboration in the connected economy @harvard biz @i...Diego Alberto Tamayo
IT infrastructure will play a vital role in enabling organizations to become
connected economy leaders. With an IT infrastructure designed for cognitive workloads, you can
act at the speed of thought. It accelerates technology breakthroughs through open architectures
that foster collaborative innovation. Finally, it works with your cloud platforms to extend the value
of your systems and data. Put it all together and instead of observing change unfold, you can seize
the opportunities created by the connected economy.
The cognitive advantage insights from early adopters on driving business va...Diego Alberto Tamayo
The cognitive advantage
Cognitive computing is quickly emerging as a transformative technology that enables
organizations to gain business advantage. Also referred to as artificial intelligence (AI), cognitive
technology augments human expertise to unlock new intelligence from vast quantities of data and
to develop deep, predictive insights at scale. This shift to systems that can reason and learn is
especially germane to the bottom line; the cognitive era is here in large part because it makes
practical business sense.
UiPath Test Automation using UiPath Test Suite series, part 3DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
Topics covered:
UI automation Introduction,
UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
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Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
2. Transforming businesses as
the Internet of Things expands
As a global electronics company, we understand the
issues facing the high-tech industry and the continuous
transformation required to thrive. Across the industry,
companies are turning their attention from smartphones and
tablets to a new generation of connected devices that will
transform not just the Electronics industry, but many others.
The IBM Global Electronics practice uniquely combines IBM
and partner services, hardware, software and research into
integrated solutions that can help you deliver innovation,
create differentiated customer experiences and optimize
your global operations.
Executive Report
Electronics Industry
3. Executive summary
When the first mainframes were sold, even IBM did not imagine a global market larger than a
few thousand devices. Mainframes were the province of the largest governments and enterprises,
used to execute complex managerial and operational tasks. Thanks to technological progress that
has been both relentless and predictable, mainframes were supplemented first by minicomputers,
then microcomputers, personal computers, and most recently, smartphones and tablets. Next up:
smart devices.
Each time the cost of computing power has declined by an order of magnitude, it has, in turn,
kicked off a rise in unit volume – also by an order of magnitude. Even though volume increases
have been so large with each revolution, the time required to achieve that growth has decreased.1
This next revolution, a network of billions of intelligent devices known as the “Internet of
Things (IoT),” will, in some ways, be predictable and similar to past expansions of the
computing world. In other aspects, however, it represents an entirely new approach.
Computing is already widespread in many devices from kitchens to cars, but it is a particular
kind of computing that is cheap and scalable, yet inherently limited: application-specific,
embedded computing.
What is new, and what will power the IoT, is the shift from special purpose computing – often
the minimum necessary for device control – to general purpose computing. Thanks to
Moore’s Law, it is now cheaper and easier to make a device with a powerful general purpose
computer than create a customized embedded device. Very soon, devices from doorknobs to
light bulbs will carry as much compute power and connectivity as the first smartphones.
To guide executives in making strategic IoT investments, and to better understand the
connected future and its impact across industries, we conducted the 2014 IBM Internet of
Things Study. Our study was performed in conjunction with top IBM researchers and
comprised of three research components: technology strategy; business and economic
Why is the IoT in peril?
More than a billion intelligent, connected devices
already comprise today’s “Internet of Things (IoT).”
The expected proliferation of hundreds of billions more
places us at the threshold of a transformation sweeping
across the electronics industry and many others.
Yet, the dream of a smart, safe and efficient future is
threatened by subscription fees, ubiquitous advertising
and intrusive surveillance. For the IoT to survive the end
of trust and successfully scale from billions to hundreds
of billions of devices, executives need to rethink the
technology strategy, business models and design
principles at its foundation.
This first report of our study shows that a low-cost,
private-by-design “democracy of devices” will emerge
that will enable new digital economies and create new
value, while offering consumers and enterprises
fundamentally better products and user experiences.
1
4. insights; and product and user experience design. The findings from the initial phase are
explored in this report. Additional analysis and publication of our research findings will
continue in the next phase (see methodology details on page 21).
The confluence of many technology revolutions
The rise of inexpensive general purpose computing has been accompanied by the availability of
inexpensive sensors and actuators that today are cheap enough to embed in a device even if
they are not used. Tremendous advances in cloud computing enable storage and analytics of
the vast amounts of data generated by these sensors. Fueled by ubiquitous connectivity and the
availability of billions of IP addresses with IPv6, the number of connected devices is forecasted
to surpass 25 billion in 2020, up from 2.5 billion in 2009 and 10 billion today (see Figure 1).2
Figure 1
Each inflection point in the history of computing has triggered an explosion in the number of computing devices
In the emerging device-driven democracy,
power in the IoT will shift from the center
to the edge.
As devices compete and trade in real-time,
they will create liquid markets out of the
physical world.
In the IoT of hundreds of billions of devices,
connectivity and intelligence will be a
means to better products and experiences,
not an end.
1950
5000
1975
10,000
2003
2009
2.5 billion
2014
10 billion
2020
2050
100 billion
2 Device democracy
5. Looking forward, an increase in open web-service application program interfaces (APIs) will
allow devices to connect and work smoothly as part of complex, multi-vendor networks. 3D
printing and digital manufacturing will enable manufacturers to build and deploy devices in
small batches, quickly pioneering new products and solutions.
The result: a proliferation of hundreds of billions of devices that will be no more expensive than
their dumb counterparts, yet able to operate and act as part of complex, integrated systems.
As with prior revolutions, this one will usher in another order-of-magnitude reduction in cost,
as smartphones and tablets that range from US$200 to US$600 are supplemented by smart
devices, such as doorknobs and light bulbs, that cost as little as US$20.
Opportunities for the global economy
Though the IBM mainframe (once System/360, now System z) recently celebrated its 50th
anniversary, the impact of the computer industry on the global economy has been relatively
recent and surprisingly limited. Nobel Prize-winning economist Robert Solow remarked in
1987 that even as PC sales surged into the millions, he could see the impact of computers
“everywhere but in the productivity statistics.”3
In 1987, computers of all kinds were selling around 15 to 20 million annually.4
It was not until after the
year 2000 that economists were able to show a statistically significant impact of computers on
industrial productivity.5
By that time, computer sales were routinely exceeding 300 million
annually.6 Since then, we have gone from 300 to 400 million PCs to nearly a billion smartphones.7
As we go from a billion smartphones toward hundreds of billions of smart devices, the scale of
opportunity from the IoT becomes visible. After over 50 years of gradually growing penetration,
the majority of the global economy is still considered to be in industries that are not
“IT-intensive.” Many of these – like agriculture, transportation and logistics – have not historically
fit well with personal computers that require desks and offices. The IoT will change all that.
3
6. Broke
n
business High c
ost
Lackof
Not future-proof
Lackofprivacy
m
odels
functionalvalu
e
Internet
of Things
Why the IoT already needs a reboot
So far, the first wave of the IoT has focused on very high-value applications. There have been
visible successes in continuous monitoring of jet engines, automated smart meters and
remote healthcare management. But demand has been slow to take off in many areas: only
30 percent of heavy industrial equipment is networked and only 10 percent of smart TVs are
used for Internet viewing.8 Perhaps the slowest area of adoption is home automation, where
consumers have failed to embrace devices from smart toothbrushes to refrigerators.
Market expectations and valuations, however, have been enormous – as much as 10 to 20
times revenue, even though revenues have been relatively small, particularly in the consumer
space.9 This is largely a result of the cost and complexity of most IoT solutions, as well as
enterprises and entrepreneurs treating the IoT as if it were just another computing platform,
and applying the same set of business models: services, ecosystems, applications and
analytics. Unless executives make big strategic changes, they are set to be disappointed as
they seek to scale today’s IoT solutions to support tomorrow’s hundreds of billions of things
(see Figure 2).
Challenge one: The cost of connectivity
Even as revenues fail to meet expectations, costs are prohibitively high. Many existing IoT
solutions are expensive because of the high infrastructure and maintenance costs associated
with centralized clouds and large server farms, in addition to the service costs of middlemen.
There is also a mismatch in supplier and customer expectations. Historically, costs and
revenues in the IT industry have been nicely aligned. Though mainframes lasted for many
years, they were sold with enterprise support agreements. PCs and smartphones have not
Figure 2
Why today’s Internet of billions of Things won’t scale to the Internet of
hundreds of billions of Things
4 Device democracy
7. historically been sold with such profitable support plans; but with their shorter product life
cycles, that has not been a huge problem. With the IoT, it is unlikely that there will be enough
margin for companies to cover several years of support and maintenance.
The cost of supporting and serving billions of smart devices will be substantial – even
something as simple as maintaining centralized servers that distribute regular software updates.
Challenge two: The Internet after trust
The Internet was originally built on trust. In the post-Snowden era, it is evident that trust in the
Internet is over. The notion of IoT solutions built as centralized systems with trusted partners is
now something of a fantasy. Most solutions today provide the ability for centralized authorities,
whether governments, manufacturers or service providers to gain unauthorized access to
and control devices by collecting and analyzing user data.
In a network of the scale of the IoT, trust can be very hard to engineer and expensive, if not
impossible, to guarantee. For widespread adoption of the ever-expanding IoT, however, privacy
and anonymity must be integrated into its design by giving users control of their own privacy.
Current security models based on closed source approaches (often described as “security
through obscurity”) are obsolete and must be replaced by a newer approach – security
through transparency. For this, a shift to open source is required. And while open source
systems may still be vulnerable to accidents and exploitable weaknesses, they are less
susceptible to government and other targeted intrusion, for which home automation,
connected cars and the plethora of other connected devices present plenty of opportunities.
5
8. Challenge three: Not future-proof
While many companies are quick to enter the market for smart, connected devices, they have
yet to discover that it is very hard to exit. While consumers replace smartphones and PCs
every 18 to 36 months, the expectation is for door locks, LED bulbs and other basic pieces of
infrastructure to last for years, even decades, without needing replacement.
An average car, for example, stays on the road for 10 years, the average U.S. home is 39 years
old and the expected lifecycles of road, rail and air transport systems is over 50 years.10 A
door lock with a security bug would be a catastrophe for a warehousing company and the
reputation of the manufacturer. In the IoT world, the cost of software updates and fixes in
products long obsolete and discontinued will weigh on the balance sheets of corporations for
decades, often even beyond manufacturer obsolescence.
Challenge four: A lack of functional value
Many IoT solutions today suffer from a lack of meaningful value creation. The value
proposition of many connected devices has been that they are connected – but simply
enabling connectivity does not make a device smarter or better. Connectivity and intelligence
are a means to a better product and experience, not an end.
It is wishful thinking for manufacturers that some features they value, such as warranty
tracking, are worth the extra cost and complexity from a user’s perspective. A smart,
connected toaster is of no value unless it produces better toast. The few successes in the
market have kept the value proposition compelling and simple. They improve the core
functionality and user experience, and do not require subscriptions or apps.
6 Device democracy
9. Challenge five: Broken business models
Most IoT business models also hinge on the use of analytics to sell user data or targeted
advertising. These expectations are also unrealistic. Both advertising and marketing data are
affected by the unique quality of markets in information: the marginal cost of additional
capacity (advertising) or incremental supply (user data) is zero. So wherever there is
competition, market-clearing prices trend toward zero, with the real revenue opportunity
going to aggregators and integrators. A further impediment to extracting value from user data
is that while consumers may be open to sharing data, enterprises are not.
Another problem is overly optimistic forecasts about revenue from apps. Products like
toasters and door locks worked without apps and service contracts before the digital era.
Unlike PCs or smartphones, they are not substantially interactive, which makes such revenue
expectations unrealistic.
Finally, many smart device manufacturers have improbable expectations of ecosystem
opportunities. While it makes interesting conversation for a smart TV to speak to the toaster,
such solutions get cumbersome quickly and nobody has emerged successful in controlling
and monetizing the entire IoT ecosystem.
So while technology propels the IoT forward, the lack of compelling and sustainably profitable
business models is, at the same time, holding it back. If the business models of the future don’t
follow the current business of hardware and software platforms, what will they resemble?
7
10. Saving the future of the IoT
As the number of connected devices grows from billions to hundreds of billions, and as
governments and corporations race to take control of devices and data, we need to save the
IoT. This “rescue” will require business and technology leaders to fundamentally rethink
technology strategy by building solutions for radically lower cost, privacy and autonomy.
Business models that guide these solutions must embrace highly efficient digital economies
and create collaborative value, all while creating improved products and user experiences
(see Figure 3).
Democratizing the digital world
The foundation of modern computing is the very humble work of transaction processing.
From phone calls to electricity metering, to airline reservations, each is a transaction to be
processed. As passengers make reservations, pay for tickets, board planes and receive
frequent flyer miles, every step along the way a transaction is processed, recorded and stored.
Transaction processing isn’t just for “old-school” workloads, either. Every digital interaction like
a message or tweet, is a transaction as well. In today’s web-based world, the scale and volume
of transactions have exploded. The New York Stock Exchange handles 5 million trades a day.11
In contrast, over 5 billion social media transactions are processed every single day.12
Now, along
comes the IoT, further exploding the scale and volume of transactions to be processed.
Indeed, transaction processing could not have scaled to its current level without distributed
computing. Distributed computing has existed for some time now, as have peer-to-peer
systems. But as recent significant advances in peer-to-peer computing meet Moore’s Law, it
will soon be possible to harness the compute power, terabytes of storage and bandwidth that
will be on billions of devices, in millions of locations and sitting idle most of the time for
transaction processing.
Create
better
products and
experiences
Prepare for
new digital
economies
Create
collaborative
value
Design for
peer-to-peer
systems
Design for
trustless
commmunication
Design for
decentralized
autonomy
Design rule
Business model
guidelines
Technology
principles
1
2
3
Figure 3. The pyramid of digital success: Build a strong technology
foundation, guided by new business models and design for better
experiences
8 Device democracy
11. Adopting peer-to-peer computing to process the hundreds of billions of IoT transactions can
significantly reduce costs associated with installing and maintaining large centralized data
centers. It’s time for the cloud to move from the data center to your doorknob (see Figure 4).
Successful decentralization of the IoT, however, will lie not just in being peer-to-peer, but also
in being trustless: an environment in which there is no need for participants to be trusted and
no centralized, single point of failure.
Open access IoT networks,
centralized cloud
Open access IoT networks,
distributed cloud
Today 2025 and beyondBefore 2005
Closed and centralized
IoT networks
Figure 4. To be safe, scalable and efficient, Internet of Things networks must be re-architected to gradually shift from
managing billions of devices to hundreds of billions of devices
“The future is already here - it’s just
not very evenly distributed.”
William Gibson, Author13
9
12. In the absence of a centralized server brokering messages, supporting file storage and
transfers, and arbitrating roles and permissions, any decentralized IoT solution should
support three foundational types of transactions:
• Trustless peer-to-peer messaging
• Secure distributed data sharing
• A robust and scalable form of device coordination.
Peer-to-peer messaging protocols are not new, but emerging trustless peer-to-peer
messaging systems promise to provide a “lightweight” mechanism for highly encrypted,
private-by-design communication among devices on the IoT.14
Our vision is that in the near
future, these trustless peer-to-peer protocols evolve into transport protocols more suited for
the IoT than TCP/IP. Additionally, secure distributed file-sharing protocols have the potential to
replace cloud-based file storage and transfers, enabling secure software and firmware
updates, and direct file sharing among peer devices.
The greatest challenge, however, is not in simply building a decentralized IoT, but one that can
scale universally while maintaining private, secure and trustless transactions. In other words,
the IoT represents a case of billions of players, not all of which can be trusted – some even
malicious – with a need for some form of validation and consensus. And for this, the
“blockchain” offers a very elegant solution.
Why blockchains work for the IoT
A technology breakthrough that has fundamentally changed our notions of centralized authority,
the blockchain is a universal digital ledger that functions at the heart of decentralized financial
systems such as Bitcoin, and increasingly, many other decentralized systems.
10 Device democracy
13. The blockchain holds a record of every transaction made by every participant. Cryptography
is used to verify transactions and keep information on the blockchain private. Many participants
verify each transaction, providing highly redundant verification and are rewarded for the
computational work required. By confirming transactions using decentralized consensus,
the blockchain eliminates the need for trust.
While the blockchain may carry regulatory and economic risk as a long-term store of value
(as in the case of Bitcoin), it can be quite revolutionary as a transaction processing tool.15
In our vision of a decentralized IoT, the blockchain is the framework facilitating transaction
processing and coordination among interacting devices. Each manages its own roles and
behavior, resulting in an “Internet of Decentralized, Autonomous Things” – and thus the
democratization of the digital world (see Figure 5).
The role of users
In this democracy of hundreds of billions, users bind with devices using secure identification
and authentication. Users dynamically create and maintain rules of engagement with other
devices. These rules provide a powerful mechanism to define relationships between and
permissions for devices based on user-defined proximity: physical, social or temporal.
Rules could also be defined by 51 percent consensus, as in the case of devices agreeing on
the safety of peer downloadable software updates or banning a misbehaving participant.
User creation and execution of digital checklists based on a pre-defined set of rules aims to
help ensure that the autonomously functioning devices do not fail.
Figure 5
The blockchain functions as a universal digital ledger facilitating
various types of IoT transactions between devices
Registration
of new
device
Authentication
of remote
users
Contract to barter
power with other
appliances
Checklist for
automobile
safety
Universal digital ledger
11
14. The role of devices
Devices, on the other hand, are empowered to autonomously execute digital contracts such
as agreements, payments and barters with peer devices by searching for their own software
updates, verifying trustworthiness with peers, and paying for and exchanging resources and
services. This allows them to function as self-maintaining, self-servicing devices.
The power to autonomously trade with other devices opens up whole new business model
opportunities: each device in the network can function as a self-contained business, sharing
capabilities and resources such as compute cycles, bandwidth and power at very low
transaction costs with other devices. Besides the creation of new businesses that tap the
unused capacity of billions of devices, the blockchain also facilitates new markets for service
and consumables associated with those devices.
The role of manufacturers
For device manufacturers and service providers too, a blockchain-based IoT is attractive. It
allows them to transfer maintenance ownership and responsibility to a community of self-
maintaining devices, making the IoT future-proof and saving infrastructure costs on a massive
scale, both during the life of a device and long past its obsolescence.
In this model, users control their own privacy and rather than being controlled by a centralized
authority, devices are the master. The role of the cloud changes from a controller to that of a
peer service provider. In this new and flat democracy, power in the network shifts from the
center to the edge. Devices and the cloud become equal citizens.
Such a device-driven democracy is clearly very compelling for all participants in the IoT
ecosystem. But perhaps its greatest value is at the macro level, not only in creating a scalable
and efficient IoT, but in creating new marketplaces and shaping new business models.
12 Device democracy
15. Liquifying the physical world
Before the IoT, there was simply the Internet. The Internet of People (as we may come to know
it) has already had an enormous impact on the economy. Its biggest impact, by far, has been
in the creation and transformation of markets for digital content such as music, news, maps
and other information.
The IoT will enable a similar set of transformations, making the physical world as liquid,
personalized and efficient as the digital one. Based on historical case studies of digital
disruption, we see five compelling vectors of disruption emerging. They will shift the IoT from
technical curiosity to compelling business strategy (see Figure 6).
Unlocking excess capacity of physical assets
In transforming the market for digital content, the Internet enabled three key elements of
commerce: search, usage and payment. Search became instant and comprehensive. From
music to encyclopedia articles, usage and payment can similarly take place immediately and
entirely online. Some of the transformation that has taken place is a result of the unique
economics of digital content. With a zero marginal cost of reproduction, market clearing
prices for competitive digital markets have reached zero.
The IoT creates the ability to digitize, sell and deliver physical assets as easily as with virtual
goods today. Using everything from Bluetooth beacons to Wi-Fi-connected door locks,
physical assets stuck in an analog era will become digital services. In a device driven
democracy, conference rooms, hotel rooms, cars and warehouse bays can themselves report
capacity, utilization and availability in real-time. By taking raw capacity and making it easy to
be utilized commercially, the IoT can remove barriers to fractionalization of industries that
would otherwise be impossible. Assets that were simply too complex to monitor and manage
will present business opportunities in the new digital economy.
Vectors of disruption Liquification of the physical
world
Unlock excess capacity of
physical assets
Instantly search, use and pay for
available physical assets
Create liquid, transparent
marketplaces
Real-time matching of supply and
demand for physical goods and
services
Enable radical re-pricing of
credit and risk
Digitally manage risk and assess
credit, virtually repossess and
reduce moral hazard
Improve operational
efficiency
Allow unsupervised usage of
systems and devices, reduce
transaction and marketing costs
Digitally integrate value
chains
Enable business partners
to optimize in real-time,
crowdsource and collaborate
Figure 6
Five vectors of disruption: How the IoT will increase our leverage of
physical assets
13
16. Creating liquid, transparent marketplaces
By identifying and matching supply and demand for physical assets and services in real-time,
the IoT will create new marketplaces. These complex, real-time digital marketplaces will build
upon the foundation established by mobile devices and social networks to expand the reach
of this transformation very quickly. They will enable new peer-to-peer economic models and
foster sharing economies.16
Devices will be able to compete in real-time, be reviewed and
recommended by consensus, and trade on their own, resulting in highly efficient digital
marketplaces.
There is no better historical example of what happens when a continuous flow of capacity
and services meets a powerful set of digital tools to match supply and demand than the role
of Sabre in the airline industry. Uber and Airbnb are the Sabres of today, leading the creation of
liquid markets for physical assets such as cars, homes, office cubicles, urban storage, parking
spots and appliances that would not be possible without the IoT.
Radical re-pricing of credit and risk
Another big revolution will be in the creation of personalized risk and credit profiles. The
provision of credit and management of risk today is a crude business, as crude as advertising
was in the era of newspapers and television. Credit bureaus and tax records in mature
western markets sparked a revolution in the availability of consumer credit, but they cover
(crudely) only a tiny portion of the world’s population. Unsecured credit lines in mature
markets like the U.S. are often 8 to 10 times the cost of high quality credit, with remarkably
little variation among customers, a testament to how poorly risk pricing is understood even in
those markets.
Unlocking
capacity
Creating
transparent
marketplaces
Re-pricing of
credit and risk
NEW
DIGITAL ECON
O
MIES
Figure 7
By transforming physical assets and services to behave like the virtual
world, the IoT will create new digital economies
14 Device democracy
17. Instrumentation and digitization enabled by mobile phones and the IoT promise a revolution in
pricing risk and credit. Combining device instrumentation with mobile money, GPS logs and
social networks, it will be possible for companies to build much more accurate pictures of real
risk, and simultaneously reduce moral hazard and the cost of repossession.
The expansion of consumer credit at reasonable prices had an enormous impact on the
prosperity of consumers, and the spread of modern appliances and other conveniences into
homes. Together, the unlocking of physical assets, creation of new markets and more
accurate assessment of credit and risk will open the doors to new digital economies
inconceivable before the IoT (see Figure 7).
Finally, there are whole sectors of the economy where information technology is yet to make
any significant impact. In these sectors, not only is there the possibility to unlock assets,
create new markets and better price risk, but the opportunity is highest to improve efficiency
and create entirely new solutions and value (see Figure 8). By definition, it is hard to forecast
entirely new kinds of value, but a good place to start will be those industries that, to date, have
felt little impact from digitization.
Improving operational efficiency
Today, the sector of the economy with the lowest IT intensity is farming, where IT accounts for
just 1 percent of all capital spending. Here, the potential impact of the IoT is enormous.
Farming is capital- and technology-intensive, but it is not yet information-intensive. Advanced
harvesting technology, genetically modified seeds, pesticide combinations, and global
storage and distribution show how complex modern agriculture has become, even without
applying IT to that mix.
Improving
operational
efficiency
Digitally
integrating value
chains
NEWC
O
LLABORATIVE
VALUE
Figure 8
By reducing transaction and marketing costs, and enabling partnerships
for innovation, the IoT will create new collaborative value
15
18. Instrumenting and digitizing every step in the agriculture process could yield substantial
returns from close collaboration among farmers, biotechnology companies, farm equipment
manufacturers and capital providers. The array of IoT technologies that can and will be
deployed to make agriculture more productive includes drones to monitor large areas
cheaply, instrumentation for optimized planting and harvesting based on soil and weather
conditions, and field sensors for detailed monitoring.
Digitally integrating value chains
One of the most beneficial ways the IoT will be used is through its ability to integrate value
chains. Using digital technology to integrate value chains has been one of the biggest drivers
of industrial networking technology so far.
Thanks to real-time data feeds, airlines can schedule maintenance and arrange spare parts
to fix defects long before a plane lands. The result: aircraft spend more time in the air earning
money and less time on the ground waiting for maintenance and repairs. These kinds of
high-value services exist today in very limited and closed ecosystems. The IoT will enable
consumers and businesses to operate precisely this kind of value-creating integration across
enterprises and systems at a tiny fraction of the cost of integration in the past. Crowdsourcing
and other open collaboration platforms will further accelerate the creation of shared growth
and innovation.
16 Device democracy
19. When it comes to enabling virtual vertical integration, there remain relatively few examples of
big industrial successes. Indeed, consortia on the Industrial Internet are just starting the
lengthy process of setting standards. Even as businesses argue over standards, consumers
are racing ahead. Already, there are thousands of system-to-system and system-to-device
integration “recipes” across services and products – slowly being adopted by large
enterprises, but more rapidly by consumers and small businesses that will lead the way.
In the end, the IoT is expected to make the physical world every bit as easy to search, utilize
and engage with as the virtual world. We describe this emerging transformation as the
liquification of the physical world. Just as large financial marketplaces create liquidity in
securities, currencies and cash, the IoT can liquify whole industries, squeezing greater
productivity and profitability out of them than anyone ever imagined possible.
17
20. Design thinking: Making it better
As the IoT liquifies the physical world, it will transform many products and experiences by
embedding connectivity and intelligence in practically everything around us. To most users of
these devices though, networking and remote usage are only secondary features.
Consumers care most about the primary functional value and user experience.
Tomorrow’s smart devices should create value by applying connectivity and intelligence to
improve the core value proposition of the device: smart cooktops that automatically turn the heat
down when a pot boils over; smart toasters that can tell the difference between golden brown and
burnt; smart washers that can call for maintenance before the product breaks, mix the exact
quantity of detergent needed and use the optimal temperature of water. Consumers will embrace
such solutions because they provide better cooking, less mess, cleaner clothes, increased safety
or greater fitness, not because they are part of complex networks or ecosystems.
First-person technology: What can your device do for you?
Furthermore, in the new democracy of devices where users are in control, devices in the
network should be enabled to act in the best interest of the user, rather than third parties such
as manufacturers, governments or service providers. While architecting the IoT to be
decentralized and autonomous is a step in that direction, design habits also need to evolve to
focus on the value of a connected device to its user. Putting the user first, and designing for
user-centric experiences and value will be critical to adoption of the IoT.
“Good design is good business.”
Thomas Watson, Jr., Former IBM Chairman and CEO
18 Device democracy
21. As more and more devices around us become connected and intelligent, many physical
products as we know them will be transformed into digital experiences. Many machine-
human interactions will be replaced by machine-machine interactions, and new
machine-human interactions will emerge. A large majority of machine-machine
communication will become invisible while machine-human communication will become
highly interactive (see Figure 9).
As this process unfolds, conventional design thinking will expand. Simple, transparent digital
interfaces will need to seamlessly replace existing physical interactions. And as our
dependence on smart devices increases, it will be essential that these devices are designed
not to fail. Whether for consumers or enterprises, the most successful IoT solutions must be
powerful in their value propositions, simplicity and reliability.
Instrumented
Interconnected
Intelligent
Invisible
Interactive
Figure 9
A majority of device communication will be transparent to users, and user interactions will become simple and easy to use
19
22. How ready are you for the IoT?
Companies across all industries must grasp the scale of transformation that will occur over
the next decade with the IoT and prepare for its impact. These questions can help to identify
useful steps executives can take toward that goal:
• What are the forecasted infrastructure and maintenance costs to your business to support
the IoT?
• How secure are your IoT solutions today? Do they protect the privacy of users, whether
consumers or enterprises?
• Can your business models survive the longevity of the IoT? Are they built on continuing
revenue expectations from selling data, analytics, software updates and apps?
• What role can your business play in the new digital economies that will form as a result of
the IoT?
• What opportunities exist for your company to improve efficiency and collaborate across the
value chain to create shared innovation and growth?
• Are your smart products and solutions designed to fundamentally improve their core value
propositions in a simple and reliable manner?
20 Device democracy
23. Methodology: 2014 IBM Internet of Things Study
Our study was comprised of three research components to address the multiple challenges
of a scalable, secure and efficient IoT. We used a “clean sheet approach” and collaborated
with top researchers in IBM to rethink the technology, business models and design concepts
that will shape the connected future.
• Technology strategy: We developed a revolutionary reference architecture for a low-cost,
private-by-design IoT and built concept prototypes to demonstrate feasibility. The next
phase will focus on developing a next-generation platform and partnering externally to
create functional product prototypes.
• Business and economic insights: Our research included a case study approach to
understand historical industry disruptions from digitization to identify the key vectors of
disruption from the IoT. In the next study phase, we are partnering with an economic
research firm to build an industry model to quantitatively establish susceptibility of various
industries to these vectors.
• Product and user experience design: We collaborated with expert user experience and
industrial designers to conceptualize the transformation of physical products into
meaningful digital experiences. In the next phase, we are crowdsourcing ideas related to
these principles to build a set of prototypes that demonstrate greater functional value from
the IoT.
By merging these three streams of research, we offer a tangible vision of the connected future
and findings that can guide executives in making strategic IoT decisions and investments.
21
24. The right partner for a changing world
At IBM, we collaborate with our clients, bringing
together business insight, advanced research and
technology to give them a distinct advantage in
today’s rapidly changing environment.
IBM Institute for Business Value
IBM Global Business Services, through the IBM
Institute for Business Value, develops fact-based
strategic insights for senior executives around critical
public and private sector issues. This executive report
is based on an in-depth study by the Institute’s
research team. It is part of an ongoing commitment by
IBM Global Business Services to provide analysis and
viewpoints that help companies realize business value.
For more information
To learn more about this IBM Institute for Business Value
study, please contact us at iibv@us.ibm.com. Follow @
IBMIBV on Twitter, and for a full catalog of our research
or to subscribe to our monthly newsletter, visit:
ibm.com/iibv
Access IBM Institute for Business Value executive
reports on your phone or tablet by downloading the free
“IBM IBV” app for iOS or Android from your app store.
Winners and losers: A recipe for digital success
At a macroeconomic level, we are all winners in the IoT future, even though different industries
will experience a mix of different effects. Overall growth is likely, but profit pools will not be
preserved, nor will the distribution of benefits be even. However, winners in the IoT economy
will share some common characteristics, as will losers.
Winners will:
• Enable decentralized peer-to-peer systems that allow for very low cost, privacy and long
term sustainability in exchange for less direct control of data
• Prepare for highly efficient, real-time digital marketplaces built on physical assets and
services with new measures of credit and risk
• Design for meaningful user experiences, rather than try to build large ecosystems or
complex network solutions.
Losers will:
• Continue to invest in and support high-cost infrastructure, and be unmindful of security and
privacy that can lead to decades of balance sheet overhead
• Fight for control of ecosystems and data, even when they have no measure of what its value
will be
• Attempt to build ecosystems but lose sight of the value created, probably slowing adoption
and limiting the usage of their solutions.
22 Device democracy
25. About the authors
Veena Pureswaran has spent more than 10 years in the Electronics industry and has held
leadership positions in product development, strategy and management. She is currently the
Global Electronics Industry Leader at the IBM Institute for Business Value, responsible for
developing thought leadership for the industry. She can be reached at vpures@us.ibm.com.
Paul Brody has spent more than 15 years in the Electronics industry doing extensive
consulting work across supply chain, operations and business strategy. He was formerly
Vice President and North America Leader for the IBM Mobile and Internet of Things practice,
and a founding member of the IBM Industry Academy.
Contributors
John Cohn, IBM Fellow, IBM Corporate Strategy
Peter Finn, Client Architect, IBM Sales and Distribution
Sumabala Nair, Strategy and Analytics Architect, IBM Global Business Services
Sanjay Panikkar, Global SME for Electronics, IBM Global Business Services
23
26. References
1 Reimer, Jeremy. Total Share: Personal Computer Market Share 1975-2010. December 7,
2012. http://jeremyreimer.com/m-item.lsp?i=137. Accessed on August 29, 2014.
2 Gartner press release. “Gartner Says the Internet of Things Installed Base Will Grow
to 26 Billion Units By 2020.” December 12, 2013. http://www.gartner.com/newsroom/
id/2636073. Accessed on August 29, 2014.
3 Triplett, Jack E. “The Solow productivity paradox: what do computers do to productivi-
ty?” Brookings Institution. April 1999. The Canadian Journal of Economics. http://www.
jstor.org/discover/10.2307/136425?uid=3739776uid=2129uid=2uid=70uid=4uid=
3739256sid=21104098246301. Accessed on August 29, 2014.
4 Reimer, Jeremy. Total Share: Personal Computer Market Share 1975-2010. December 7,
2012. http://jeremyreimer.com/m-item.lsp?i=137. Accessed on August 29, 2014.
5 Jorgenson, Dale W., Harvard University; Mun Ho, Resources for the Future; and Jon
Samuels, Johns Hopkins University. “INFORMATION TECHNOLOGY AND U.S. PRODUC-
TIVITY GROWTH: Evidence from a Prototype Industry Production Account.” November
19, 2010. http://scholar.harvard.edu/files/jorgenson/files/02_jorgenson_ho_samuels19n-
ov20101_2.pdf Accessed on August 29, 2014.
6 Reimer, Jeremy. Total Share: Personal Computer Market Share 1975-2010. December 7,
2012. http://jeremyreimer.com/m-item.lsp?i=137. Accessed on August 29, 2014.
7 Ibid.
8 Institute for Business Value analysis.
9 Winkler, Rolfe. “What Google gains from Nest Labs: Data Automation at Heart of $3.2
Billion Deal.” Wall Street Journal. January 14, 2014. http://online.wsj.com/news/articles/
SB10001424052702303819704579321043556056678. Accessed on August 29, 2014.
24 Device democracy