- The document discusses future developments in the Internet of Things using a novel architecture called NovaGenesis.
- Key aspects of NovaGenesis include self-verifying names for entities, life-cycling services to enable discovery and negotiation between devices, and a service-oriented approach applied at all layers of the network.
- The document outlines initial NovaGenesis concepts, current prototype implementations, and potential applications for cognitive radio in IoT networks using the NovaGenesis model.
Internet of Things: Its Applications Future and ProblemsRiten Debnath
This Presentation is based on Internet on Things. Inside the presentation we have Applications, Technologies, Problems and Future associated with Internet of Things.
Os slides da apresentação sobre a transição de alguem que era somente backend de sistemas corporativos e depois migrou pro IoT, é um resumo pra quem quer fazer o mesmo.
- The document discusses future developments in the Internet of Things using a novel architecture called NovaGenesis.
- Key aspects of NovaGenesis include self-verifying names for entities, life-cycling services to enable discovery and negotiation between devices, and a service-oriented approach applied at all layers of the network.
- The document outlines initial NovaGenesis concepts, current prototype implementations, and potential applications for cognitive radio in IoT networks using the NovaGenesis model.
Internet of Things: Its Applications Future and ProblemsRiten Debnath
This Presentation is based on Internet on Things. Inside the presentation we have Applications, Technologies, Problems and Future associated with Internet of Things.
Os slides da apresentação sobre a transição de alguem que era somente backend de sistemas corporativos e depois migrou pro IoT, é um resumo pra quem quer fazer o mesmo.
The Internet of Things - Software is eating the world, Industry, and everythi...Martin Spindler
Slides for a talk I gave in Munich on Dec. 2nd, 2016, on invitation of Harvey Nash. Talking about the Impact of Software and the Internet of Things on several industries and some common fallacies when trying to come up with strategies surrounding IoT.
MANETs are mobile ad hoc networks that have no fixed infrastructure. Nodes in a MANET are both routers and hosts, communicating via radio signals in a shared medium. They have dynamic topology due to node mobility and limited resources. Routing protocols for MANETs can be proactive, maintaining routes continuously, or reactive, establishing routes on demand. Dynamic Source Routing and Ad Hoc On-Demand Distance Vector are examples of reactive protocols, flooding route requests and returning route replies. Applications include military networks, disaster relief, sensor networks, gaming and personal area networks.
At GetShift we are a technology-agnostic IoT platform that is developing an interoperable, platform agnostic, IoT operating system. We're also having some fun along the way by making devices we need and use internally, including an internet-connected productivity timer, GetTime, as well as internet connected switch, the GetSwtich.
Internet of Things (IoT) has a great potential for diverse applications. IoT applications can provide interesting and useful applications in various fields such as agriculture, aviation, education and more
Lecture 1 mobile and adhoc network- introductionChandra Meena
This document provides an overview of a course on mobile and ad hoc networks. It lists two textbooks that will be used and states that the goal is to cover fundamental design issues and solutions for network architecture and protocols. It also lists some related websites and outlines the objectives of chapters that will introduce wireless communication technologies, network standards, and multiple access techniques for ad hoc networks.
The document provides an overview of the global Internet of Things (IoT) technology services market landscape. Some key points:
- The global IoT technology services market is expected to grow from $78 billion in 2017 to $190 billion in 2022, a CAGR of 19%. Managed services are expected to be the fastest growing segment.
- Verticals like industrial, automotive, high-tech and energy & utilities will drive most of the growth, contributing over 60% of spending by 2022. North America will be the largest region.
- The top 20 IoT technology service providers currently address around 76% of the market. Indian service providers address about 44% of the total outsour
Internet of Things (IoT): More Opportunity than RiskStefan Ferber
I) Internet der Dinge
a) „Software is eating the world“
Durch die Vernetzung werden Dienste und Dienstleistungen wichtiger als der Verkauf der physischen Produkte selbst. Der Trend, im traditionellen Internet-Geschäft als Vermittler, Aggregator oder Plattform-Anbietereine dominante und finanzielle äußerst lukrative Marktposition zu erlangen, wird über die virtuellen Paradoxa plakativ illustriert:
Facebook, Pixar, AirBnB, UBER, Amazon. Marc Andreessens 2011 Slogan „Software is eating the world“ ist in vielen Branchen nicht nur eine technische, sondern auch eine Geschäftsrealität geworden. Basierend auf der „Valley Philosophie”, exemplarisch illustriert durch Ray Kurzweils Theorie der „technological singularity“, zelebriert beim „Burning Man“ Festival, praktisch gelebt in Start-ups und großen Internet-Firmen, zielen diese Technologieunternehmen darauf ab, das Leben von Milliarden Menschen zu verändern („change the lives of a billion people“). Dazu gehört das disruptive Abschaffen alter ineffizienter Industrien.
b) Nächste Stufe: Das Internet der Dinge
Das „Internet der Dinge“ ist die nächste Generation des Internets. Es ist ein global vernetztes System bestehend aus Computern, Sensoren, Aktoren und Geräten die über das Internet Protokoll potentiell „jedes Ding“ vernetzen. Durch das verschmelzen der physikalischen Welt mit der virtuellen Welt entstehen für Organisationen, Firmen und Konsumenten neue, höherwertige Dienste auf Basis von webbasierten Geschäftsmodellen. Schlussendlich steht das Internet der Dinge für eine Serie von technologischen und ökonomischen Veränderungen, die nicht nur bestehende Märkte, sondern auch das Leben jedes einzelnen revolutionieren wird.
„Industrie 4.0“ ist das Internet der Dinge in den Anwendungsbereichen der Produktion, Automatisierungstechnik und produktionsnahen Logistik.
c) Erfolgsformel von Prof. Fleisch
Dinge werden seit 30 Jahren zunehmend mit digitalen aufgeladen: eingebettete Software, Hochleistungsprozessoren, kleinste Sensoren, Anbindung an das Internet. Das führt dazu, dass neben der lokalen Funktion des Dings auch globale Dienstleistungen mit dem „Schwarm der Dinge“ und deren Benutzern möglich wird:
Ding + IT = lokale Funktion + globale Dienstleistung
Wie können traditionelle Industrieunternehmen und Gründer in diesem Feld ihre eigene Position neu definieren?
II) Handlungsrahmen für Unternehmen in vier Dimensionen
Seit 2008 bereitet sich Bosch entlang dieser vier Dimension auf die Chancen und Herausforderungen im Internet der Dinge und Dienste vor:
1. Geschäftsinnovation
2. Marktdisruptionen
3. Kompetenzen
4. Technologie
Dr. Mazlan Abbas from MIMOS Berhad gave a talk on the Internet of Things. The talk provided an overview of the term Internet of Things and the underlying technologies. It defined the Internet of Things as connecting physical devices to the internet and allowing them to generate, exchange and consume data. The talk referenced an infographic from Postscapes for additional information and provided Dr. Abbas' contact details for further discussion.
To obtain a foundational understanding of how the Internet of Things applies to your business, begin by exploring the answers to five key questions. To learn more, check out our special Internet of Things section in Deloitte Review Issue 17: http://deloi.tt/1TwfcmI
How do APIs and IoT relate? The answer is not as simple as merely adding an API on top of a dumb device, but rather about understanding the architectural patterns for implementing an IoT fabric. There are typically two or three trends:
Exposing the device to a management framework
Exposing that management framework to a business centric logic
Exposing that business layer and data to end users.
This last trend is the IoT stack, which involves a new shift in the separation of what stuff happens, where data lives and where the interface lies. For instance, it's a mix of architectural styles between cloud, APIs and native hardware/software configurations.
Internet of Things (IOT) - Technology and ApplicationsDr. Mazlan Abbas
The document discusses Internet of Things (IoT) technologies and applications. It defines IoT, describes its characteristics and components. It also discusses challenges in IoT deployment areas like identification, architecture, communication technologies, and the need for protocols like 6LoWPAN to allow IPv6 connectivity over low power wireless personal area networks. Delay Tolerant Networking (DTN) is also introduced as a way to allow intermittent connectivity in challenged environments.
The document provides an overview of the Internet of Things (IoT) in 3 sentences:
The Internet of Things (IoT) connects physical objects through sensors, software and network connectivity which allows these "things" to collect and exchange data between other devices. The document outlines what IoT is, how it works, current applications and challenges, and the future potential of a world where many everyday objects are connected to the internet and able to send and receive data. The increasing interconnectivity of physical objects through technologies like RFID, sensors and networking promises both benefits and risks relating to privacy, security, and how IoT may influence human behavior.
The document discusses the Internet of Things (IoT). It defines IoT as the concept of connecting physical objects to the internet and being able to identify, sense and communicate with those objects. It describes how IoT allows both people and devices to communicate with each other and exchange data. Some key applications of IoT mentioned are smart homes, smart cities, industrial automation, logistics and supply chain management. The document also outlines several challenges to the large-scale implementation of IoT such as issues relating to privacy, security, standardization, and developing energy sources for billions of connected devices.
The Internet of Things - Software is eating the world, Industry, and everythi...Martin Spindler
Slides for a talk I gave in Munich on Dec. 2nd, 2016, on invitation of Harvey Nash. Talking about the Impact of Software and the Internet of Things on several industries and some common fallacies when trying to come up with strategies surrounding IoT.
MANETs are mobile ad hoc networks that have no fixed infrastructure. Nodes in a MANET are both routers and hosts, communicating via radio signals in a shared medium. They have dynamic topology due to node mobility and limited resources. Routing protocols for MANETs can be proactive, maintaining routes continuously, or reactive, establishing routes on demand. Dynamic Source Routing and Ad Hoc On-Demand Distance Vector are examples of reactive protocols, flooding route requests and returning route replies. Applications include military networks, disaster relief, sensor networks, gaming and personal area networks.
At GetShift we are a technology-agnostic IoT platform that is developing an interoperable, platform agnostic, IoT operating system. We're also having some fun along the way by making devices we need and use internally, including an internet-connected productivity timer, GetTime, as well as internet connected switch, the GetSwtich.
Internet of Things (IoT) has a great potential for diverse applications. IoT applications can provide interesting and useful applications in various fields such as agriculture, aviation, education and more
Lecture 1 mobile and adhoc network- introductionChandra Meena
This document provides an overview of a course on mobile and ad hoc networks. It lists two textbooks that will be used and states that the goal is to cover fundamental design issues and solutions for network architecture and protocols. It also lists some related websites and outlines the objectives of chapters that will introduce wireless communication technologies, network standards, and multiple access techniques for ad hoc networks.
The document provides an overview of the global Internet of Things (IoT) technology services market landscape. Some key points:
- The global IoT technology services market is expected to grow from $78 billion in 2017 to $190 billion in 2022, a CAGR of 19%. Managed services are expected to be the fastest growing segment.
- Verticals like industrial, automotive, high-tech and energy & utilities will drive most of the growth, contributing over 60% of spending by 2022. North America will be the largest region.
- The top 20 IoT technology service providers currently address around 76% of the market. Indian service providers address about 44% of the total outsour
Internet of Things (IoT): More Opportunity than RiskStefan Ferber
I) Internet der Dinge
a) „Software is eating the world“
Durch die Vernetzung werden Dienste und Dienstleistungen wichtiger als der Verkauf der physischen Produkte selbst. Der Trend, im traditionellen Internet-Geschäft als Vermittler, Aggregator oder Plattform-Anbietereine dominante und finanzielle äußerst lukrative Marktposition zu erlangen, wird über die virtuellen Paradoxa plakativ illustriert:
Facebook, Pixar, AirBnB, UBER, Amazon. Marc Andreessens 2011 Slogan „Software is eating the world“ ist in vielen Branchen nicht nur eine technische, sondern auch eine Geschäftsrealität geworden. Basierend auf der „Valley Philosophie”, exemplarisch illustriert durch Ray Kurzweils Theorie der „technological singularity“, zelebriert beim „Burning Man“ Festival, praktisch gelebt in Start-ups und großen Internet-Firmen, zielen diese Technologieunternehmen darauf ab, das Leben von Milliarden Menschen zu verändern („change the lives of a billion people“). Dazu gehört das disruptive Abschaffen alter ineffizienter Industrien.
b) Nächste Stufe: Das Internet der Dinge
Das „Internet der Dinge“ ist die nächste Generation des Internets. Es ist ein global vernetztes System bestehend aus Computern, Sensoren, Aktoren und Geräten die über das Internet Protokoll potentiell „jedes Ding“ vernetzen. Durch das verschmelzen der physikalischen Welt mit der virtuellen Welt entstehen für Organisationen, Firmen und Konsumenten neue, höherwertige Dienste auf Basis von webbasierten Geschäftsmodellen. Schlussendlich steht das Internet der Dinge für eine Serie von technologischen und ökonomischen Veränderungen, die nicht nur bestehende Märkte, sondern auch das Leben jedes einzelnen revolutionieren wird.
„Industrie 4.0“ ist das Internet der Dinge in den Anwendungsbereichen der Produktion, Automatisierungstechnik und produktionsnahen Logistik.
c) Erfolgsformel von Prof. Fleisch
Dinge werden seit 30 Jahren zunehmend mit digitalen aufgeladen: eingebettete Software, Hochleistungsprozessoren, kleinste Sensoren, Anbindung an das Internet. Das führt dazu, dass neben der lokalen Funktion des Dings auch globale Dienstleistungen mit dem „Schwarm der Dinge“ und deren Benutzern möglich wird:
Ding + IT = lokale Funktion + globale Dienstleistung
Wie können traditionelle Industrieunternehmen und Gründer in diesem Feld ihre eigene Position neu definieren?
II) Handlungsrahmen für Unternehmen in vier Dimensionen
Seit 2008 bereitet sich Bosch entlang dieser vier Dimension auf die Chancen und Herausforderungen im Internet der Dinge und Dienste vor:
1. Geschäftsinnovation
2. Marktdisruptionen
3. Kompetenzen
4. Technologie
Dr. Mazlan Abbas from MIMOS Berhad gave a talk on the Internet of Things. The talk provided an overview of the term Internet of Things and the underlying technologies. It defined the Internet of Things as connecting physical devices to the internet and allowing them to generate, exchange and consume data. The talk referenced an infographic from Postscapes for additional information and provided Dr. Abbas' contact details for further discussion.
To obtain a foundational understanding of how the Internet of Things applies to your business, begin by exploring the answers to five key questions. To learn more, check out our special Internet of Things section in Deloitte Review Issue 17: http://deloi.tt/1TwfcmI
How do APIs and IoT relate? The answer is not as simple as merely adding an API on top of a dumb device, but rather about understanding the architectural patterns for implementing an IoT fabric. There are typically two or three trends:
Exposing the device to a management framework
Exposing that management framework to a business centric logic
Exposing that business layer and data to end users.
This last trend is the IoT stack, which involves a new shift in the separation of what stuff happens, where data lives and where the interface lies. For instance, it's a mix of architectural styles between cloud, APIs and native hardware/software configurations.
Internet of Things (IOT) - Technology and ApplicationsDr. Mazlan Abbas
The document discusses Internet of Things (IoT) technologies and applications. It defines IoT, describes its characteristics and components. It also discusses challenges in IoT deployment areas like identification, architecture, communication technologies, and the need for protocols like 6LoWPAN to allow IPv6 connectivity over low power wireless personal area networks. Delay Tolerant Networking (DTN) is also introduced as a way to allow intermittent connectivity in challenged environments.
The document provides an overview of the Internet of Things (IoT) in 3 sentences:
The Internet of Things (IoT) connects physical objects through sensors, software and network connectivity which allows these "things" to collect and exchange data between other devices. The document outlines what IoT is, how it works, current applications and challenges, and the future potential of a world where many everyday objects are connected to the internet and able to send and receive data. The increasing interconnectivity of physical objects through technologies like RFID, sensors and networking promises both benefits and risks relating to privacy, security, and how IoT may influence human behavior.
The document discusses the Internet of Things (IoT). It defines IoT as the concept of connecting physical objects to the internet and being able to identify, sense and communicate with those objects. It describes how IoT allows both people and devices to communicate with each other and exchange data. Some key applications of IoT mentioned are smart homes, smart cities, industrial automation, logistics and supply chain management. The document also outlines several challenges to the large-scale implementation of IoT such as issues relating to privacy, security, standardization, and developing energy sources for billions of connected devices.
Published on Feb 11, 2014
Introduction for Vagrant and Docker provider.
This presentation is prepared for Docker Meetup Tokyo 2014 #1 in 12, Feb, 2014 at National Institute of Informatics.
Copyright 2014, NTT Data Corporation.
https://www.slideshare.net/miurahr/introduction-to-vagrantdockernttdata
Introduction for Vagrant and Docker provider.
This presentation is prepared for Docker Meetup Tokyo 2014 #1 in 12, Feb, 2014 at National Institute of Informatics.
Copyright 2014, NTT Data Corporation.
7. Copyright @ NIFTY Corporation All Rights
アプリとサーバの現状
7
アプリ サーバ
・認証
・結果
・データ(テキスト/バイナリ)
・プッシュ通知
だいたい同じ
8. Copyright @ NIFTY Corporation All Rights
サーバに求められるもの
8
・安定性
・セキュリティ対策
・定期的なアップデート
絶対に落ちないこと!
高速に動き続けること!
クラックされないこと!
9. Copyright @ NIFTY Corporation All Rights
mBaaSに置き換えてみる
9
アプリ
・認証
・結果
・データ(テキスト/バイナリ)
・プッシュ通知
ニフティクラウド
mobile backend
アプリの開発に集中!
10. Copyright @ NIFTY Corporation All Rights
ニフティクラウド mobile
backendの主な機能
10
プッシュ通知
データ
ストレージ
ファイル
ストレージ
SNS連携 認証
位置情報
検索
11. Copyright @ NIFTY Corporation All Rights
対応プラットフォーム
11
Objective-C
(2014年12月より64bit対応)
Android
JavaScript
(2014年12月よりnodeサポート!)
Unity
12. Copyright @ NIFTY Corporation All Rights
Web API
12
RESTfulなAPI
・データの追加、更新、削除、検索
・バイナリファイルの追加、更新、削除、検索
・認証
・プッシュ通知の追加、更新、削除、検索
https://github.com/moongift/ncmb-ruby-client
13. Copyright @ NIFTY Corporation All Rights
本題
13
IoT と mBaaS をいかに組み合わせるか?
14. Copyright @ NIFTY Corporation All Rights
IoTデバイスの問題点1
14
小型=小バッテリー
常時電源が使えるとは限らない
小さなメモリ/ストレージ
蓄積したデータを廃棄?
15. Copyright @ NIFTY Corporation All Rights
よくない利用
15
IoTデバイス
デスクトップ
スマートフォン
Webサーバ
22. Copyright @ NIFTY Corporation All Rights 22
IoTデバイス
スマートフォン APNs/GCM
mBaaSを使った例
!
ニフティクラウド
mobile backend
プッシュ作成サーバ
23. Copyright @ NIFTY Corporation All Rights
プッシュ作成サーバ
23
require 'sinatra/base'
require 'ncmb'
class Server < Sinatra::Base
get '/' do
NCMB.initialize application_key: ENV['APPLICATION_KEY'] ¦¦ "", client_key: ENV['CLIENT_KEY'] ¦¦ ""
@push = NCMB::Push.new
@push.immediateDeliveryFlag = true
@push.target = ['ios']
@push.message = params["m"]
@push.deliveryExpirationTime = "3 day"
if @push.save
status 201
body ''
else
status 403
body ''
end
end
end
https://github.com/moongift/push_server/
24. Copyright @ NIFTY Corporation All Rights
MQTTに対応させる場合
24
require 'mqtt'
require 'uri'
require 'ncmb'
# Create a hash with the connection parameters from the URL
uri = URI.parse ENV['CLOUDMQTT_URL'] ¦¦ 'mqtt://localhost:1883'
conn_opts = {
remote_host: uri.host,
remote_port: uri.port,
username: uri.user,
password: uri.password,
}
MQTT::Client.connect(conn_opts) do ¦c¦
NCMB.initialize application_key: ENV['APPLICATION_KEY'] ¦¦ "", client_key: ENV['CLIENT_KEY'] ¦¦ ""
loop do
# The block will be called when you messages arrive to the topic
c.get(ENV['TOPIC']) do ¦topic, message¦
@push = NCMB::Push.new
@push.immediateDeliveryFlag = true
@push.target = ['ios']
@push.message = message.force_encoding('utf-8')
@push.deliveryExpirationTime = "3 day"
@push.save
end
end
end
https://github.com/moongift/push_server_mqtt
25. Copyright @ NIFTY Corporation All Rights
IoTの問題3
25
M2M(Machine to Machine)とは言うけど
そもそもプロトコルを合わせられない…
26. Copyright @ NIFTY Corporation All Rights
良くない利用
26
IoTデバイス IoTデバイス
プロコトルの違い
仕様のすりあわせ
NAT越の必要あり
27. Copyright @ NIFTY Corporation All Rights 27
mBaaSを使った例
IoTデバイス IoTデバイスニフティクラウド
mobile backend
M2C2M
28. Copyright @ NIFTY Corporation All Rights 28
mBaaSを使った例
IoTデバイス IoTデバイスニフティクラウド
mobile backend
29. Copyright @ NIFTY Corporation All Rights
M2C2Mの例
29
お父さんいまどこメーター
via http://qiita.com/
kazunori279/items/
7dbbb525ab0cf6d5d9b5