Automatski Corporation provides a fleet management solution using sensors and gateways to track assets in real-time. Their solution incorporates GPS tracking, routing and scheduling, emergency response systems, decision making tools, and insurance management. Telematics is similar but fleet management involves a broader set of capabilities. The document outlines Automatski's expertise in IoT platforms and solutions, leadership, services, and training they provide regarding fleet management and other IoT domains.
Hitch-hikers guide to AI for Connected and Autonomous VehiclesBill Harpley
These are the slides from a talk given to the 'Self-driving and Autonomous Vehicles' meetup group, in Brighton on 12/02/2017. It provides an overview of how Artificial Intelligence (AI), Machine Learning and Deep Learning are shaping the future of the automotive industry.
'' Internet of Vehicles (IoV) ,,
IoV is basically INTERNET of VEHICLES, a strong network between vehicles and living.
IoT is a proposed development of the Internet in which everyday objects have network connectivity, allowing them to send and receive data.
The new era of the Internet of Things is driving the evolution of conventional Vehicle Ad-hoc Networks into the Internet of Vehicles (IoV).
Being in generation of Internet connectivity, there is a need to stay in safe and hassle free environment.
According to recent predictions, 25 billion “things” will be connected to the Internet by 2020, of which vehicles will constitute a significant portion.
Objectives
IoV – distributed transport fabric capable of making its own decisions about driving customers to their destinations
IoV should have communications, processing, storage, intelligence, learning and strong security capabilities .
To be integrated in IoT framework and smart cities technologies.
Extended business models and the range of applications ( including mediaoriented) current vehicular networks.
Types Of Communication IoV
The IoV includes mainly five types of vehicular communications
1.Vehicle-to-Vehicle (V2V).
2.Vehicle to-Roadside Unit (V2R).
3.Vehicle-to-Infrastructure of cellular networks (V2I) .
4.Vehicle-to-Personal devices (V2P)
5.Vehicle-to-Sensors (V2S).
Network elements of IoV
A network model of IoV is proposed based on the three network elements, including cloud, connection, and client. The benefits of the design and development of IoV are highlighted by performing a qualitative comparison between IoV and VANETs
2010 may not be a good year for Pakistan in many fields but it was a great year for Pakistan Information Technology (IT) sector. Pakistan won seven Merit awards in Asia Pacific Information and Communication technology Awards (APICTA).
Prepared by Helene Andre in December 2014
A brief overview of the most promising categories for the Internet of Things from Wearables to Connected Cars to Smart Home
Followings are Key Words/Key Phrases from Samsung Electronics’ IFA 2015 press conference in Berlin that demonstrated how it is taking the Internet of Things (IoT) from vision to reality (published by SamsungTomorrow) contrast to the related IoT patents/patent strategy.
Hitch-hikers guide to AI for Connected and Autonomous VehiclesBill Harpley
These are the slides from a talk given to the 'Self-driving and Autonomous Vehicles' meetup group, in Brighton on 12/02/2017. It provides an overview of how Artificial Intelligence (AI), Machine Learning and Deep Learning are shaping the future of the automotive industry.
'' Internet of Vehicles (IoV) ,,
IoV is basically INTERNET of VEHICLES, a strong network between vehicles and living.
IoT is a proposed development of the Internet in which everyday objects have network connectivity, allowing them to send and receive data.
The new era of the Internet of Things is driving the evolution of conventional Vehicle Ad-hoc Networks into the Internet of Vehicles (IoV).
Being in generation of Internet connectivity, there is a need to stay in safe and hassle free environment.
According to recent predictions, 25 billion “things” will be connected to the Internet by 2020, of which vehicles will constitute a significant portion.
Objectives
IoV – distributed transport fabric capable of making its own decisions about driving customers to their destinations
IoV should have communications, processing, storage, intelligence, learning and strong security capabilities .
To be integrated in IoT framework and smart cities technologies.
Extended business models and the range of applications ( including mediaoriented) current vehicular networks.
Types Of Communication IoV
The IoV includes mainly five types of vehicular communications
1.Vehicle-to-Vehicle (V2V).
2.Vehicle to-Roadside Unit (V2R).
3.Vehicle-to-Infrastructure of cellular networks (V2I) .
4.Vehicle-to-Personal devices (V2P)
5.Vehicle-to-Sensors (V2S).
Network elements of IoV
A network model of IoV is proposed based on the three network elements, including cloud, connection, and client. The benefits of the design and development of IoV are highlighted by performing a qualitative comparison between IoV and VANETs
2010 may not be a good year for Pakistan in many fields but it was a great year for Pakistan Information Technology (IT) sector. Pakistan won seven Merit awards in Asia Pacific Information and Communication technology Awards (APICTA).
Prepared by Helene Andre in December 2014
A brief overview of the most promising categories for the Internet of Things from Wearables to Connected Cars to Smart Home
Followings are Key Words/Key Phrases from Samsung Electronics’ IFA 2015 press conference in Berlin that demonstrated how it is taking the Internet of Things (IoT) from vision to reality (published by SamsungTomorrow) contrast to the related IoT patents/patent strategy.
Guest Lecture on IOT for Taylor's University (April 15, 2015) - Things that are connected to the Internet can be smarter than you think. There can be embedded intelligence to the device but there are time, a higher processing power is required in the cloud. But when you aggregate various kinds of data from multiple sources, it will bring better insights that you might not have the ability to find out if its data resides in silos. To build smarter world, we need smarter people to make it work.
Edge AI refers to AI algorithms that are processed locally on hardware devices and can process data without a network connection. This means that operations such as data creation can be performed without streaming or data storage in the cloud. This is important because more and more device data cannot rely on cloud processing. For example, factory robots and self-driving cars need to process data at high speed with minimal delay.
The current landscape of Internet of Things (IoT) applications is extremely fragmented because we are still experimenting to discover the correct mix for our respective markets. Unfortunately in the IoT world, one solution does not fit all.We need much more clarity in understanding the challenges of IoT application development, both in terms of technical feasibility as well as business opportunities. In our talk we present a toolkit approach towards accelerating IoT applications by leveraging modular components that can effectively accelerate go to market for end solutions.
ER(Entity Relationship) Diagram for online shopping - TAEHimani415946
https://bit.ly/3KACoyV
The ER diagram for the project is the foundation for the building of the database of the project. The properties, datatypes, and attributes are defined by the ER diagram.
Multi-cluster Kubernetes Networking- Patterns, Projects and GuidelinesSanjeev Rampal
Talk presented at Kubernetes Community Day, New York, May 2024.
Technical summary of Multi-Cluster Kubernetes Networking architectures with focus on 4 key topics.
1) Key patterns for Multi-cluster architectures
2) Architectural comparison of several OSS/ CNCF projects to address these patterns
3) Evolution trends for the APIs of these projects
4) Some design recommendations & guidelines for adopting/ deploying these solutions.
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!
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.
2. Automatski Corporation, London Page 2
Executive Summary
Assets are normally immobile equipment, tools, machinery, buildings etc. The term assets is normally
used on the Balance Sheet. Assets are normally non-mobile or have limited mobility. If they are mobile
then they are managed as a Fleet using Automatski’s Fleet Management Solutions.
A Government, Organization, or a business like a Smart Healthcare provider, Fire, Police, Para-Medics
etc. will involve Fleets which need to be mnaged and operated, commissioned and decommissioned.
And they might also involve Realtime monitoring. Which means the use of Sensors and Gateways.
This document outlines the Automatski Fleet Management Solution.
3. Automatski Corporation, London Page 3
Contents
i. Global IoT Leadership
ii. Leadership
iii. Fleet Management
iv. Services
v. Further Information
4. Automatski Corporation, London Page 4
Global IoT Leadership
Automatski Corporation is one of the Top Global Internet of Things firms; Head Quartered in London,
U.K. with an offshore presence in Bangalore, India. It is the world’s first in all of its 5 IoT offerings. It was
founded in 2014 by Aditya Yadav.
Middleware IoT Platform - Has been built using first principles from the ground up to offer
comprehensive real world IoT solutions. We are the worlds first to do this at IoT Scale which we believe
is beyond Internet Scale w/ ~1 Trillion Devices and a Billion+ ops
Autonomous Compute Platform (R) aka infinions.io - Scheduled for release in Sep/Oct'15 comprising of
18+ foundational IoT Services. We are the worlds first in this because Things can consume the services
autonomously without absolutely any human intervention, become first class Autonomous Citizens of
the internet. Something like The SkyNet from the movie Terminator.
AutoSIM IoT Simulator - We are the world’s first to offer a comprehensive IoT simulator which supports
10+ protocols, runs on a distributed server cluster and simulates 1m-100m+ devices.
Massive Online Simulations - The SmartCity Simulator - Scheduled for Jan/Feb'16. Smart Cities are a
catch22 because one cannot develop the best platform and solution without having the sensors and
infrastructure in place, and no one will put the infrastructure in place upfront without any utility. Hence
we are developing a Massive Scale SmartCity Simulator which can run on 500-1000 server clusters,
simulate 1Billion+ devices from traffic signals, sewage, energy meters, water, healthcare, emergency
services etc. And can do throughputs of 10Billion+ ops and integrate with systems of systems globally;
which can be used for Smart City Development. Again we are the world’s first with this too.
WirelessSIM Simulator – The World’s First Complete Solution for Field/Site Wireless/RF Network
Design, Protocol Agnostic. (i) Closed Form Solutions (ii) Experiments & Empirical Solutions (iii) UTD based
3D Simulations. 3-4% Accuracy. It’s an RF Power, Sensitivity, Distance & Layout design solution.
5. Automatski Corporation, London Page 5
Leadership
Automatski Corporation was founded in 2014 by Aditya Yadav. Aditya is from IIT Bombay and IIM
Bangalore by education, has worked with Top Global firms like McKinsey, BCG, Fidelity, Goldman Sachs,
Tesco, Google etc. Aditya has 18+ years of industry experience covering executive management,
consulting and advisory, technology, operations and management, financial engineering, research and
development, innovation, agile, big data, cloud computing, data science etc. Aditya has been an advisor
to National Skills Development Council, NASSCOM and the government of India. For more information
about Aditya please see https://in.linkedin.com/in/adityayadav76 or http://adityayadav.com
Besides IoT Products, Platforms and Trainings, Automatski also builds IoT solutions for its clientele, and
engages in Consulting and Advisory Engagements throughout the Globe. For more information please
look at our website http://automatski.com
6. Automatski Corporation, London Page 6
Fleet Management
Fleet Management may or may not involve Gateways, if they do AutoGate will be used, if not Sensors
with 3G connectivity will be used e.g. GPS trackers etc., but fleet management definitely involves
sensors.
Some example of sensors used in Fleet Management are as follows…
1. Machine Vision/Optical Ambient Light
2. Acceleration/Tilt
3. Electric/Magnetic
4. Position/Presence/Proximity
5. Motion/Velocity/Displacement
6. Leaks/Levels
7. Force/Load/Torque/Strain/Pressure
8. Flow
9. Chemical/Gas
10. Acoustic/Sound/Vibration
11. Humidity/Moisture
12. Temperature etc.
The Automatski Fleet Management solution builds on top of Automatski Asset Management Solution
and incorporates Realtime Visiblity and Monitoring and other features as follows.
1. GPS Tracking
2. Routing & Scheduling
3. SOS
4. Decision Sciences
5. Fleet & Driver Insurance
7. Automatski Corporation, London Page 7
6. Toll & Tax’s Management etc.
Sometimes the term Telematics is used alongside Fleet Management.
Telematics refers to the use of wireless devices and “black box” technologies to transmit data in real
time back to an organization. Typically, it's used in the context of automobiles, whereby installed or
after-factory boxes collect and transmit data on vehicle use, maintenance requirements or automotive
servicing.
But Fleet Management is a superset of Telematics solutions.
8. Automatski Corporation, London Page 8
Services
Consulting & Advisory
i. Security & Privacy
ii. Risk Management
iii. Regulatory & Compliance
iv. Policy & Governance
v. Design & Architecture
vi. Big Data, Data Engineering, Data
Sciences, Decision Sciences
vii. Economic Models
viii. Simulations
ix. Agile & Software Engineering, Coaching
& Advisory Engagements
Solutions
i. Cloud Computing
ii. Big Data & Analytics
iii. Machine Learning & Artificial
Intelligence
iv. Mobile & Web Applications
v. Sensors & Actuators
vi. Platforms
vii. Functional/Regression/Performance/Str
ess Testing
viii. Open Source
ix. Security & Privacy
x. Large Scale Integration
xi. Standards & Interoperability
9. Automatski Corporation, London Page 9
A Typical Solution
i. Cloud Services - AWS, Azure etc.
ii. Mobile - iOS, Android & Windows
Phone
iii. Desktops - Windows & Mac
iv. Sensors - Arduino, RaspberryPi,
Edison etc.
v. Gateways & Hubs
vi. Edge Networking
vii. Fog Computing
*** 1 week - a couple of months, Project Duration
Domains
i. Smart City
ii. Smart Energy & Smart Grids
iii. Smart Healthcare
iv. Connected & Autonomous Cars
v. Smart Homes
vi. M2M
vii. Industrial IoT
IoT Training
i. Introduction to M2M, IoT, and IoE
ii. Global Players and their Offerings
iii. Standards, Protocols & Consortiums
iv. Sensors, Devices & Gadgets
v. Programming Arduino, RaspberryPi etc.
vi. Writing your first IoT Application
vii. Open Source in IoT
viii. APIs
ix. Mobile & WebServices
x. IoT Platforms
xi. Domain Solutions – Smart Cars, Smart
Healthcare, Smart Energy/Grids, Smart
Cities, Smart Homes & Industrial IoT
xii. Data Sciences & Decision Sciences –
BigData, Cloud & Analytics
xiii. Polyglot Architectures & Programming –
Java, C#, R etc.
xiv. Software Engineering Principles in IoT –
Design, Architecture, Testing –
Functional/Regression/Performance/Str
ess
xv. Simulations
xvi. Security & Privacy – Principles & Design
xvii. A Structured Approach to IoT Adoption
Online Exam & Certification (Optional)