The document describes IBM Bluemix, a cloud platform for building, running, and managing applications. Bluemix provides flexibility with public, dedicated, and local deployment options. It utilizes open technologies like Cloud Foundry, Docker, and OpenStack. Developers can build apps using services for web, data, mobile, analytics, IoT and more. Bluemix supports multiple languages and frameworks. Its hybrid model allows apps to span platforms for improved portability and management.
1. Bluemix is IBM's cloud platform that provides an open innovation platform to build, deploy, and manage applications anywhere through public, private, and on-premises options.
2. It delivers flexible compute options including containers and virtual machines and a catalog of over 100 services to extend applications.
3. Bluemix offers deployment options like public, dedicated, and local environments to meet enterprise security, compliance, and infrastructure needs while fostering innovation.
Android Implementation using MQTT ProtocolFatih Özlü
This document describes an Android application that was created to receive sensor data from a classroom environment via MQTT. The application was designed to subscribe to predefined topics to receive messages about sensor events from a CEP engine. It displays the sensor data and complex events in visualizations and on different activity screens corresponding to the classroom setup. The application was tested by running a simulator that published simulated sensor data to topics, and a CEP engine that processed the data and published complex events.
The document describes IBM Bluemix, a cloud platform for building, running, and managing applications. Bluemix provides flexibility with public, dedicated, and local deployment options. It utilizes open technologies like Cloud Foundry, Docker, and OpenStack. Developers can build apps using services for web, data, mobile, analytics, IoT and more. Bluemix supports multiple languages and frameworks. Its hybrid model allows apps to span platforms for improved portability and management.
1. Bluemix is IBM's cloud platform that provides an open innovation platform to build, deploy, and manage applications anywhere through public, private, and on-premises options.
2. It delivers flexible compute options including containers and virtual machines and a catalog of over 100 services to extend applications.
3. Bluemix offers deployment options like public, dedicated, and local environments to meet enterprise security, compliance, and infrastructure needs while fostering innovation.
Android Implementation using MQTT ProtocolFatih Özlü
This document describes an Android application that was created to receive sensor data from a classroom environment via MQTT. The application was designed to subscribe to predefined topics to receive messages about sensor events from a CEP engine. It displays the sensor data and complex events in visualizations and on different activity screens corresponding to the classroom setup. The application was tested by running a simulator that published simulated sensor data to topics, and a CEP engine that processed the data and published complex events.
This document discusses MQTT (Message Queue Telemetry Transport), an open source protocol for lightweight messaging. It describes MQTT's publish-subscribe model and use of a broker to transmit messages. It then provides examples of using MQTT topics to exchange data and introduces the open source Paho and Mosquito MQTT client and broker software.
IBM Connect 2017: Refresh and Extend IBM Domino ApplicationsEd Brill
This session covered new capabilities such as additional REST APIs coming in future feature packs of IBM Domino; IBM's partnership with Panagenda ApplicationInsights; and partners such as Darwino, We4IT's Aveedo, and Sapho that provide tools to modernize corporate and situational applications.
This document provides an overview of AWS IoT and how it can be used to connect IoT devices to AWS services. It discusses key AWS IoT components like the device SDK, device gateway, rules engine, and device shadow. It also explains how AWS IoT can integrate with other AWS services like Lambda, Kinesis, DynamoDB for backend processing. Finally, it provides steps to build an Alexa skill that controls an IoT device connected to AWS IoT using the Alexa skills kit and MQTT protocol.
This document provides an overview of MQTT (MQ Telemetry Transport), a publish-subscribe based "light weight" messaging protocol that is well suited for mobile and IoT applications. Some key points:
- MQTT was designed for connections with remote locations where bandwidth and battery power are limited, such as with mobile apps and sensor devices.
- It uses a small amount of bandwidth compared to traditional HTTP, and allows for bi-directional communication between clients and servers using publish/subscribe messaging.
- Features include support for different qualities of service, last will and testament messages, and lightweight implementation on constrained devices.
- MQTT has been used successfully in large scale mobile apps like Facebook Messenger due to its
MQTT - A practical protocol for the Internet of ThingsBryan Boyd
In today’s mobile world, the volume of connected devices and data is growing at a rapid pace. As more and more “things” become part of the Internet (refrigerators, pacemakers, cows?), the importance of scalable, reliable and efficient messaging becomes paramount. In this talk we will dive into MQTT: a lightweight, open standard publish/subscribe protocol for rapid messaging between “things”.
MQTT is simple to understand, yet robust enough to support interactions between millions of devices and users. MQTT is being used in connected car applications, mobile banking, Facebook Messenger, and many things in between. In this talk you will learn all about the protocol (in 10 minutes!) and see some of its applications: live-tracking, gaming, and more. We’ll walk through designing an MQTT-based API for a ride-share mobile application, and discuss how MQTT and REST APIs can complement each other.
This document introduces MQTT (MQ Telemetry Transport), a publish-subscribe messaging protocol designed for low-bandwidth, high-latency or unreliable networks. MQTT is optimized for constrained devices and mobile applications, enabling ubiquitous connectivity for the Internet of Things. It supports asynchronous messaging with publish/subscribe semantics and different levels of quality of service. MQTT has a small code footprint and lightweight implementation making it suitable for sensor applications and resource-constrained devices. It has gained popularity for use in home automation, gardening, transportation, and other Internet of Things applications.
The document provides information about Taipei's smart city initiatives and the GIoT LoRa ecosystem for IoT connectivity. It discusses Taipei's city-wide LoRa coverage, the GIoT network architecture, and how to get started using a LoRa module with an Arduino or Raspberry Pi by connecting the module via UART and using AT commands. It also outlines how to subscribe to the MQTT broker to send and receive data and gives an example payload format and received data packet contents.
This document discusses MQTT (Message Queue Telemetry Transport), an open source protocol for lightweight messaging. It describes MQTT's publish-subscribe model and use of a broker to transmit messages. It then provides examples of using MQTT topics to exchange data and introduces the open source Paho and Mosquito MQTT client and broker software.
IBM Connect 2017: Refresh and Extend IBM Domino ApplicationsEd Brill
This session covered new capabilities such as additional REST APIs coming in future feature packs of IBM Domino; IBM's partnership with Panagenda ApplicationInsights; and partners such as Darwino, We4IT's Aveedo, and Sapho that provide tools to modernize corporate and situational applications.
This document provides an overview of AWS IoT and how it can be used to connect IoT devices to AWS services. It discusses key AWS IoT components like the device SDK, device gateway, rules engine, and device shadow. It also explains how AWS IoT can integrate with other AWS services like Lambda, Kinesis, DynamoDB for backend processing. Finally, it provides steps to build an Alexa skill that controls an IoT device connected to AWS IoT using the Alexa skills kit and MQTT protocol.
This document provides an overview of MQTT (MQ Telemetry Transport), a publish-subscribe based "light weight" messaging protocol that is well suited for mobile and IoT applications. Some key points:
- MQTT was designed for connections with remote locations where bandwidth and battery power are limited, such as with mobile apps and sensor devices.
- It uses a small amount of bandwidth compared to traditional HTTP, and allows for bi-directional communication between clients and servers using publish/subscribe messaging.
- Features include support for different qualities of service, last will and testament messages, and lightweight implementation on constrained devices.
- MQTT has been used successfully in large scale mobile apps like Facebook Messenger due to its
MQTT - A practical protocol for the Internet of ThingsBryan Boyd
In today’s mobile world, the volume of connected devices and data is growing at a rapid pace. As more and more “things” become part of the Internet (refrigerators, pacemakers, cows?), the importance of scalable, reliable and efficient messaging becomes paramount. In this talk we will dive into MQTT: a lightweight, open standard publish/subscribe protocol for rapid messaging between “things”.
MQTT is simple to understand, yet robust enough to support interactions between millions of devices and users. MQTT is being used in connected car applications, mobile banking, Facebook Messenger, and many things in between. In this talk you will learn all about the protocol (in 10 minutes!) and see some of its applications: live-tracking, gaming, and more. We’ll walk through designing an MQTT-based API for a ride-share mobile application, and discuss how MQTT and REST APIs can complement each other.
This document introduces MQTT (MQ Telemetry Transport), a publish-subscribe messaging protocol designed for low-bandwidth, high-latency or unreliable networks. MQTT is optimized for constrained devices and mobile applications, enabling ubiquitous connectivity for the Internet of Things. It supports asynchronous messaging with publish/subscribe semantics and different levels of quality of service. MQTT has a small code footprint and lightweight implementation making it suitable for sensor applications and resource-constrained devices. It has gained popularity for use in home automation, gardening, transportation, and other Internet of Things applications.
The document provides information about Taipei's smart city initiatives and the GIoT LoRa ecosystem for IoT connectivity. It discusses Taipei's city-wide LoRa coverage, the GIoT network architecture, and how to get started using a LoRa module with an Arduino or Raspberry Pi by connecting the module via UART and using AT commands. It also outlines how to subscribe to the MQTT broker to send and receive data and gives an example payload format and received data packet contents.
1. IBM Bluemix
www.bluemix.net
Bluemix 與 車聯網應用實作
Y O U C A N D O I T B E T T E R , F A S T E R A N D M O R E C O S T – E F F I C I E N T
教材: http://goo.gl/oNWOS4