Academic

Academic Academic Haliatech is partnering with National Instruments to help educators preparing students to become the innovators of tomorrow. This requires engaging, hands-on curriculum that inspires students and puts theory into practice. Haliatech with education experts develop the hands-on curriculum to help students understand problems and build real solutions faster...

Academic

Academic

Haliatech is partnering with National Instruments to help educators preparing students to become the innovators of tomorrow. This requires engaging, hands-on curriculum that inspires students and puts theory into practice. Haliatech with education experts develop the hands-on curriculum to help students understand problems and build real solutions faster than ever.

 

Haliatech academic product and training provide advanced and comprehensive courseware material that is related to engineering curriculum starting from mechanical, civil to electrical and electronics engineering.

Haliatech is partnering with National Instruments to help educators preparing students to become the innovators of tomorrow. This requires engaging, hands-on curriculum that inspires students and puts theory into practice. Haliatech with education experts develop the hands-on curriculum to help students understand problems and build real solutions faster than ever.

Haliatech academic product and training provide advanced and comprehensive courseware material that is related to engineering curriculum starting from mechanical, civil to electrical and electronics engineering.

Haliatech Data Acquisition Curriculum

Using LabVIEW, data acquisition devices, and signal conditioning hardware, the Data Acquisition and Signal Conditioning curriculum teaches you the fundamentals of PC-based data acquisition and signal conditioning. During the course, you get hands-on experience installing and configuring data acquisition hardware and you learn to use data acquisition software functions to build your application. Although LabVIEW is the application software used during the class, non-LabVIEW users using the NI-DAQmx API can also benefit by learning about analog input, triggering, analog output, digital I/O, counters, signal conditioning, and synchronization.

Data acquisition devices include sensors, kits and small-scale replications of real-world systems. This curriculum is suitable for Mechanical Engineering, Electrical and Electronics and Civil Engineering.

Using LabVIEW, data acquisition devices, and signal conditioning hardware, the Data Acquisition and Signal Conditioning curriculum teaches you the fundamentals of PC-based data acquisition and signal conditioning. During the course, you get hands-on experience installing and configuring data acquisition hardware and you learn to use data acquisition software functions to build your application. Although LabVIEW is the application software used during the class, non-LabVIEW users using the NI-DAQmx API can also benefit by learning about analog input, triggering, analog output, digital I/O, counters, signal conditioning, and synchronization.

Data acquisition devices include sensors, kits and small-scale replications of real-world systems. This curriculum is suitable for Mechanical Engineering, Electrical and Electronics and Civil Engineering.

Haliatech Embedded and Control Curriculum

The Embedded Control and Monitoring Curriculum delivers hands-on training for designing, prototyping, and deploying a reliable embedded control and monitoring application. At the end of the course, you will be able to translate your embedded system requirements into a scalable software architecture, choose appropriate methods for inter-process and network-based communication, design your real-time application for reliability, and efficiently deploy and replicate your embedded system.

Embedded hardware and its accessories provide educators into mechatronics, image processing, controls, robotic or Industrial Internet of Think (IIOT) curriculum

The Embedded Control and Monitoring Curriculum delivers hands-on training for designing, prototyping, and deploying a reliable embedded control and monitoring application. At the end of the course, you will be able to translate your embedded system requirements into a scalable software architecture, choose appropriate methods for inter-process and network-based communication, design your real-time application for reliability, and efficiently deploy and replicate your embedded system.

Embedded hardware and its accessories provide educators into mechatronics, image processing, controls, robotic or Industrial Internet of Think (IIOT) curriculum

Haliatech Industrial Internet of Thing (IIoT) Curriculum

The Industrial Internet of Things (IIoT) refers to interconnected sensors, instruments, and other devices networked together with computers’ industrial applications, including manufacturing and energy management. This connectivity allows for data collection, exchange, and analysis, potentially facilitating improvements in productivity and efficiency as well as other economic benefits. The IIoT is an evolution of a distributed control system that allows for a higher degree of automation by using cloud computing to refine and optimize the process controls.

 

The purpose of the IIoT kit is to provide software and hardware platform for learning the concepts of the IIoT. This IIoT kit is based on National Instruments’ myRIO embedded device. As a cloud technology the IIoT lab is using Microsoft Azure, ThingWorx from PTC, Amazon Web Services and IBM Watson or other platforms. The training kit includes comprehensive user manual describing creation of things in different cloud platforms, as well as detailed instructions for the hands-on labs.

The Industrial Internet of Things (IIoT) refers to interconnected sensors, instruments, and other devices networked together with computers’ industrial applications, including manufacturing and energy management. This connectivity allows for data collection, exchange, and analysis, potentially facilitating improvements in productivity and efficiency as well as other economic benefits. The IIoT is an evolution of a distributed control system that allows for a higher degree of automation by using cloud computing to refine and optimize the process controls.

 

The purpose of the IIoT kit is to provide software and hardware platform for learning the concepts of the IIoT. This IIoT kit is based on National Instruments’ myRIO embedded device. As a cloud technology the IIoT lab is using Microsoft Azure, ThingWorx from PTC, Amazon Web Services and IBM Watson or other platforms. The training kit includes comprehensive user manual describing creation of things in different cloud platforms, as well as detailed instructions for the hands-on labs.