Monthly Archives: January, 2018

List of IoT Projects – UTHM

January 19th, 2018 Posted by IOT PLATFORM 0 thoughts on “List of IoT Projects – UTHM”

Go!AQUA – Smart Water Levelling System

Smart Water Levelling system provide information about water level exceeds the maximum values. When a sensor is triggered, the system will give alert to people within the dangerous area. This project applied IoT concept for real-time monitoring and for sure saved data can be analyzed for future references.

Development of IoT home base Indoor Air Quality Monitor

Detection of gas pollutants such as carbon monoxide, smoke, and LPG to determine the indoor air quality level.

Wireless Vibration Sensor

Vibration sensor will be monitored wirelessly using IOT application based project.

Automatic Fire Alarm System

Monitoring the smoke value in the room via Favoriot, if there is a smoke occurs (fore occurs), the alarm system activated and the notification will be sent to the Fore and Rescue Station to take action. The threshold value will be set in Favoriot to notify Fire and Rescue.

IoT Remote Health Monitoring Vital Sign

Measure 3 of 5 vital sign parameters

Monitoring water leakage system

This project about to monitor the water flow rate at the pipeline system. The GSM will notify the user about the leakage and user can monitor the water flow rate.

IoT Based Weather Station By Using Raspberry Pi 3

This weather station is designed by using Sparkfun Weather Shield sensor and Raspberry Pi 3 to monitor the climate change of Batu Pahat, Johor. The collected data are uploaded to cloud for further access and analysis. The weather parameters checking system is designed by using online platform too for everyone who owns a smartphone.

Electronic Food Cover

Heat food and keep on warm condition.

Water Level Monitoring System

It is a water level monitoring device. It is connected to the Internet. Once the device detects the change of water level, it will send a signal to the user. User can check the status anytime they want.

Smart vase: AUTOMATION GARDENING SYSTEM USING INTERNET OF THINGS (IoT)

To develop a product that can monitor plant’s condition using microcontroller and sensors and then data will be upload to the cloud using the favoriot platform.

Home-Base Security System

A home system using Arduino microcontroller and control lamp, door, window using the favoriot platform.

Metering water smart system with IOT

The data from water meter will be sent via internet to record the reading fro the main office

NOTE

All of the projects above will use the IoT Middleware from FAVORIOT.

How-To Make Industry-University Collaboration A Successful Venture

January 19th, 2018 Posted by IOT PLATFORM 0 thoughts on “How-To Make Industry-University Collaboration A Successful Venture”

I am fortunate enough to be on both sides of the world and have been with more than 15 Universities as an Industrial Advisory Panel (IAP).  Recently, I posted this question on my Facebook and received many comments.

We know the problem but the question is “How do we solve this?“. Actually, both parties need each other – the industry require new technology or innovation to make themselves relevant and stay competitive. The industry that doesn’t have an R&D arm have to depend on the Universities. On the hand, the Universities also need to ensure their students are employable and relevant to the current needs. This is the main role of the Universities.

However, both have different expectations – as much as the industry wanted to tap the innovativeness and the knowledge of the Universities to produce commercial products, they didn’t realize that the Universities aren’t capable of developing a finished commercial product. Personally, I don’t think that’s the role of the University but it’s also wrong for the University if they thought their research grant is meant just to produce journals or traveling around the world presenting at conferences.

The culture and “do or die” attitude in both University and Industry are different. That’s why we are seeing the “pace” or time in both worlds are so much different.  While you are running outside and found out that you have to drag your feet to get things done inside the University can get very frustrating to many collaborators. But what they didn’t realize that they are many obstacles within the University that don’t allow them to be as free as the “outside” people. Imagine when you are being assigned to so many tasks at one time – teaching, researching, marking exam papers, writing administrative reports/curriculum, mentoring, writing papers, attending committee meetings and so much more. Unlike the industry people who have one main specific task assigned to them.

“Ego” is one point raised by many and sometimes we didn’t realize until someone pointed the issue. It’s an honest view and hard to swallow but it seems to be true. We didn’t realize that when many lecturers came back with their Ph.D. on specific domain knowledge, they tend to continue the same work in their University and thus created many silos of research work and sometimes overlapping with each other but have no intention to work as a team. Most probably everyone is trying to achieve their own KPI – but as a team, they failed.

For any R&D activities, they require funding. Due to the bad reputation in commercializing their R&D outputs, the Government has been questioning the rationale of giving big funding and what happens to the utilization. Where are the pieces of equipment? And when they can’t get the full amount of funding required, the first thing in mind is to reduce the cost by not continuing the maintenance or renew software license. In the end, many of the expensive equipment becomes outdated.

If the University wants to become an Industry-friendly institution that can attract external parties and become relevant in the future, they need to do the following things:

  1. Funding – R&D grant is key for any activities. They must make a stand that Universities are not meant to produce commercial products. However, they are also not a “journal producer”. The R&D output must be feasible enough to become a good prototype so that it can be proven for the industry to take over the role. In fact, a JV company set up between University and Industry is a good example.
  2. Continuity – Working in a team is far better than working in a silo. They should not develop projects for the sake of projects. Many good projects go down the drain because there is no continuity. Every year, the lecturer needs to create new projects and sometimes the titles are “re-cycle” again with the same objectives. If this continues, nothing will be completed. Suggestion – think of the theme, the big picture, break into modules, assign to different students/lecturers, integrate them and voila! You will have a complete prototype by the end of the day. One of the main problems is “student come and student go” and many times it will cause void or gap in their work. A better way is to get Research Officer to constantly track, compile and manage the overall project.
  3. Develop a Channel for Industry Inputs – Develop a proper channel such as an online portal for industry to submit their industry problems. This will become a constant feed to the “ideas box”.

Note: I have few more things in mind but I will continue to update this later.

About the Author

Dr. Mazlan is the co-founder and CEO of FAVORIOT Sdn Bhd. He is ranked among 50 Most Impactful Smart Cities Leaders by World CSR Congress 2017, ranked Top 10 in IoT Top 100 Influencers by Postscapes 2017, ranked No. 20th Thought Leader in IOT by 2014 Onalytics Report – “The Internet of Things – Top 100 Thought Leaders”, ranked Top 100 in Smart Cities Top Experts by Agilience Authority Index May 2016 and UTM Alumni Industry Personality 2016. He is currently one of Global Vision Board Member (2017). Before Favoriot, he spent 2.5 years as CEO of REDtone IOT and 8 years in MIMOS Berhad as Senior Director Wireless Communications Cluster. He also spent 13 years in CELCOM (mobile operator), handling many senior management positions. Prior to Celcom, he spent 10 years as an Assoc. Professor at Universiti Teknologi Malaysia. He is currently the Adjunct Professor at Universiti Sultan Zainal Abidin (UniSZA) and Universiti Malaysia (UniMY). He was also the Adjunct Professor for UTM from 2008 to 2013 and UTHM (2004-2005, 2013-2016). Dr.Mazlan is a frequent speaker at many major & established IOT, Smart Cities and telco conferences locally and globally. He sits in Industry Advisory Panel (IAP) for several local universities. He graduated from Universiti Teknologi Malaysia with a BEE (1984), University of Essex (UK) with MSc. in Telematics (1986) and Universiti Teknologi Malaysia with a PhD in Telecommunications (1993). He also received an Honorary Doctorate in Electrical Engineering from UTHM (2017).

IoT-Based Home Energy Management System

January 19th, 2018 Posted by IOT PLATFORM 0 thoughts on “IoT-Based Home Energy Management System”

Electricity is named after the greatest invention of the 20th-century engineering achievements by the United States’ National Academy of Engineering. It has been recognized as a very important ingredient for the economic growth of a country. It is predicted that the world’s electric energy consumption and generation will be greatly increased from years to years.

However, researchers have shown that not all electricity generated is efficiently utilized. Domestic housing is identified as one of the major contributors to energy wastage. A home energy management system (HEMS) offers a significant solution to increase energy consumption efficiency where the homeowners can effectively monitor and control their usage, of which is a big environmental bonus as well (i.e., fewer carbon emissions). A market survey also shows that there are worldwide growing interests and investment in energy management systems and services.

Therefore, in this project we propose to design and develop an energy management system based on Internet-of-Things (IoT) technology. IoT offers interconnection of home appliances with the owner as well as the utility companies through the internet. Subsequently, this will provide control and monitoring of home energy usage by the electrical appliances from anywhere and at any time. Raspberry Pi 3 will be used as the main controller and gateway platform, while FAVORIOT IoT middleware is used as the cloud and Enterprise Application Software (Dashboard).

[NOTE: This is project is being done by UTM, our FAVORIOT’s University’s collaborator]

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