Tag: Satellite Tron Client

IoTBPM Server - Internet of Things Drools-BPM Design Architecture

IoTBPM Server – Internet of Things Drools-BPM Design Architecture

Executive Order Corp. releases the AI-IoTBPM Server. Download AI-IoT BPM-Drools Server BRMS / BPMN Internet of Things – Publication AI-IoT BPM Server download AI-IoT BPM-Drools Server BRMS / BPMN.

IoTBPM Server” is a Business Process Management Engine for IoT Device Orchestration.

When IoT meets BPM – The IoTBPM Server documentation will help you understand exactly what IoTBPM Server is and how it is relevant to IoT Device Orchestration and IoT Device Ontology (AI-IoT Device awareness, state of being, knowledge of real-world objects, situations and abstract concepts).

In the context of IoT Devices when we say BPM, all we mean is “a sequence of tasks that allows us to achieve a goal.” In IoT BPM orchestrated each task-goal can be carried out by a different IoT Device, enterprise RESTful server, human task, or any other integrated service.

The IoTBPM Server ensures that once started, the BPM is carried out fully and retries any steps in case of failures. The IoTBPM Server maintains an audit log, so that the progress of BPM can be monitored. The IoTBPM Server is fault tolerant and scales seamlessly to handle growing transaction volumes.

IoTBPM Server Introduction A company’s end-to-end IoT BPM workflow will almost always span more than one IoT Device or enterprise servers. These IoT Device and Services Integration into the enterprise can be mission critical to the business and is rarely modeled and monitored. Often, the message flow of events through different IoT Devices is expressed only implicitly in code.

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These cross-microservice workflows can be a company’s core operation drivers, often they are rarely modeled and monitored; and the flow of events through different IoT Devices is usually expressed only in low-level Interface Flow specifications and rarely depict Business Enterprise goals.

IoTBPM Server IoT Device solution IoT Devices architectures have become increasingly popular in recent years for providing new functionality and services; but, the very principles that make IoT Devices architectures so appealing; (i.e., loose coupling, independent deployment, and new data points) also present significant challenges.

A core point of IoT Devices architecture is that each IoT Device is responsible for one and only one business capability. Each IoT Device exists to contribute to a broader workflow. The company goal succeeds only when the end-to-end workflow is successful, so ensuring workflow quality is critical. In an IoT Devices architecture, where each IoT Device is responsible for only one carefully-scoped business capability, who’s responsible for the end-to-end workflow?

By default, no one. In fact, the end-to-end workflow might not even be formally documented within the company, with the flow of events from IoT Device to enterprise service expressed only implicitly in code. Many IoT Devices architectures rely on a pure choreography pattern for communication, where IoT Devices collaborate by publishing events to and consuming events from a messaging platform without a central controller.

IoTBPM Server workflow solution IoTBPM Server is a workflow engine that manages your end-to-end IoT Device business processes solution. It monitors the state of activities in a workflow and determines the status of each BPM activity according to defined processes.

IoTBPM Server provides high throughput, low latency, and horizontal scalability. The IoTBPM Server does not require a central database component and instead leverages event sourcing, meaning that all changes to a workflow’s state are captured as events and stored. In the IoTBPM Server this state is written directly to the filesystem on the server where the IoTBPM Server is running, and the current state of a workflow can be derived from the events stored on the server.

IoTBPM Server uses a client / server messaging model. The IoTBPM Server is a remote engine that runs in its own program space on a Java Virtual Machine. Either in the cloud or on your own servers.

IoTBPM Server is an open-source BPM workflow engine for IoT Devices orchestration that provides:

  1. Visibility into the state of a company’s end-to-end IoT BPM workflows.
  2. BPM Orchestration based on the current state of a BPM; IoTBPM Server publishes “commands” as events that can be consumed by one or more IoT Devices, ensuring that BPMs progress according to their definition.
  3. Monitoring for timeouts or other BPM errors with the ability to path, such as stateful retries or escalation to teams that can resolve an issue manually.

IoTBPM Server was designed to operate at a very large scale and to achieve this, it provides:

  • Horizontal scalability and no dependence on an external database; IoTBPM Server writes data directly to the filesystem on the same servers where it’s deployed. IoTBPM Server makes it simple to distribute processing across a cluster of machines to deliver high throughput.
  • A message-driven architecture where all BPM-relevant events are written to an append-only log, providing an audit trail and a history of the state of a BPM.
  • A publish interaction model, which enables IoT Devices that connect to IoTBPM Server to maintain a high degree of control and autonomy, including control over BPM sessions. These properties make IoTBPM Server resilient, scalable, and reactive.
  • Visual BPMs modeled in ISO-standard BPMN 2.0 so that technical and nontechnical stakeholders can collaborate on BPM design in a widely-used modeling language.
  • A language-agnostic client model, making it possible to build an IoTBPM Server client in just about any programming language that an organization uses to build IoT Devices.
  • Operational ease-of-use IoTBPM Server does not require a cluster coordinator. Because all nodes in an IoTBPM Server cluster are equal, it’s easy to scale, and it plays nicely with modern resource managers and container orchestrators.

The power of the IoT (Internet of Things) device increases greatly when business process (jBPM) can use them to provide information about our real-world as well as execute IoT devices as part of our business process. The jBPM-BPMN modular allow us to define both the business processes and IoT devices behavior at the same time using one diagram. With Arduino Tron adding Drools-jBPM to IoT, we make the IoT devices “smart”. Moving beyond just collecting IoT data and transitioning, to leveraging the new wealth of IoT data, to improving the SMART decision making is the key. The Executive Order Arduino Tron AI-IoTBPMServer will help these IoT devices, environments, and products to self-monitor, self-diagnose and eventually, self-direct.

The IoTBPM Server Orchestration A company’s end-to-end IoT BPM workflow will almost always span more than one IoT device or enterprise servers. These IoT device and enterprise services integration can be mission critical to the business and is rarely modeled and monitored. These cross-microservice workflows can be a company’s core operation drivers, often they are rarely modeled and monitored, and the flow of events through different IoT devices is usually expressed only in low-level Interface flow specifications and rarely depict business enterprise goals and workflow diagrams.

The IoTBPM Server provides the solution with the benefits of loose coupling IoT Devices architecture while ensuring robust end-to-end business enterprise BPM workflows success. IoTBPM Server can work alongside the components you already use in your event-driven architecture without requiring you to replace or remove any existing systems to provide workflow visibility.

With the IoTBPM Server platform, we go beyond loose coupling IoT Devices architecture with Drools providing AI to our IoT Device BPM workflow. The IoTBPM Server uses the concepts of Drools AI applied to the BPM workflow to make smarter decisions by our IoT Devices. The definition of AI (Artificial Intelligence) is the intelligence exhibited by machines or software. IoTBPM Server is enabling what have previously been “dumb” devices to add new layers of functionality and access creating the basis for smart homes, smart cars, and smart manufacturing. It’s not just about automatically turning on an air conditioner. The data collected, combined with IoTBPM Server makes life easier with intelligent automation, predictive analytics, and proactive intervention.

Download the AI-IoT BPM Server from AI-IoT BPM Server BPM-Drools Internet of Things

Publication AI-IoTBPM Server download BPM-Drools Internet of Things PDF AI-IoTBPM Server Publication download AI-IoT BPM-Drools Server Internet of Things Design Architecture.

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About Executive Order Corp We provide custom software built by software professionals. We specialize in IoT, desktop and web-enabled IT solutions for small and large business enterprises. Our professional offerings span business and technology consulting, business application development, mobile messaging solutions, custom web design, E-commerce development, web maintenance, website re-engineering, website optimization for search engine submission, internet marketing hosting solutions for enterprises, GPS, IoT, and remote sensing services and development program planning and management.

Satellite Tron Automotive Connected Telematics

Automotive Connected Telematics

Executive Order Satellite Tron Client – Automotive Telematics – Connected Car technology is evolving at a rapid pace. A Connected Car, vehicles connect to the internet via WLAN (Wireless Local Area Network). A connected vehicle share the internet with devices inside and outside the car, and at the same time can also share data with any external device and services.

  • Satellite Tron Connected Car Technology

Any vehicle which is equipped with internet connectivity can be called a connected car. A vehicle equipped with our Satellite Tron is called a “Smart” car. Currently, automobile companies use two kinds of systems in connected cars: Embedded and Tethered systems. An Embedded vehicle will be equipped with a chipset and built-in antenna, and a Tethered system will be equipped with hardware that connects to the driver’s smartphone. A connected vehicle can access/send data, download software updates/patches, connect with other devices (Internet of Things or IoT) and also provide WiFi internet connection to the passengers. The connected car telematics can also be accessed through the Satellite Tron connected technology.

  • Features of Satellite Tron Connected Vehicles

A connected vehicle comes equipped with a host of smart and convenient features. The features of connected car technology improve the overall driving and ownership experience, and also adds a safety net with its advanced security features. The smart features of a connected vehicle

Internet Connectivity in Cars – A connected car is always connected to the internet via an embedded chipset or SIM card, and it can access the internet, provided there is stable wireless network coverage. Connected vehicles can also provide onboard WiFi connectivity, download over-the-air updates released by the manufacturer and access other online apps and services.

App to Car Connectivity – Car manufacturers provide a dedicated smartphone app that connects with the vehicle through the wireless network. The app allows users to remotely operate the functions of a car such as locking/unlocking the door, opening sunroof, engine start/stop, climate control, headlight on/off and honk the horn. The app will also help to locate the car via the onboard GPS.

Protecting Your Car and Driver – The connected vehicles come with an important security feature known as Geo-Fencing. In simple words, it creates a geographical boundary on the map and alerts the owner, if the vehicle is driven beyond the set boundary. The geo-fencing can be set via the smartphone app, and this feature is extremely useful.

Vehicle to Vehicle Communication – Vehicle-to-vehicle connectivity technology allows connected vehicles to communicate with each other. The V-2-V enables the sharing of vital information such as traffic movement, road conditions, speed limits and much more. V-2-V technology will be a critical part of autonomous vehicles, which are deemed as the future of mobility.

Entertainment – A connected vehicle will allow you to connect to a host of pre-loaded entertainment services/apps. You can listen to music, internet radio or even watch videos (when the vehicle is parked). Also, you can connect your smartphone to the infotainment system of the car via apps and remotely control the audio/video.

Remote Parking – As the name of the feature suggests, some high-end connected cars even allow you to remotely park the vehicle. Using the smartphone app or the smart key fob, you can get out of your vehicle and maneuver the car to park it in the desired spot. This feature will come in handy in tight parking spaces, when you are not confident about parking the car in a very congested area.

Security – Connected vehicles come equipped with several critical security features such as real-time location sharing/tracking, emergency SOS calls in case of an accident, roadside assistance in case of vehicle breakdown and much more. Apart from the onboard safety equipment, these smart safety features come in handy during tricky situations.

Executive Order – Satellite Tron Client Features

  • Monitor – Track Employees, Assets, Fleet Vehicles or Yourself
  • Anti-theft – Vehicles/Heavy Equipment, Fleet Management, etc.
  • Personal Protection for Businessmen or Spouses
  • Covert Criminal Tracking/Property Locator
  • Provide application support to your staff and management
  • Satellite Tron Client is a FREE Download from the Google App Store

Executive Order Satellite Tron Android Client app allows you to use your mobile phone as a GPS tracking device. It reports location and additional information to Satellite Tron at selected time intervals. The Satellite Tron Android Client app also sends remote ambient light intensity, temperature, and humidity information to the Satellite Tron live map server. Using an internet-connected or mobile cell network connected Android phone, location and environment information are at your fingertips. Remote streaming of additional information is possible like the following: accelerometer, magnetometer, gyroscope, IR temperature, barometer, and equipment status and condition. Monitor buildings, vehicles and people from anywhere in the world. Stay connected and informed to what’s important.

We also provide businesses with software development services to help become more efficient and effective with GPS Tracking and remote data monitoring. If you are searching for an IoT or software developer expert, we have a wide range of in-house and outsource experts in different business sectors.

Want to know more details about Executive Order and our Custom Software Development Services, please feel free to Contact Us.