Wednesday 10 April 2019

Analytical/Critical Reflection


At the beginning of the course, the goal that I had set for myself was to gain the ability to speak and write more confidently. During this course, I had many opportunities to improve my speaking and writing skills. For instance, there were plenty of mini sharing exercises for me to participate in during the lessons and these exercises have allowed me to build up my confidence with presentations too. Apart from that, I also aimed to acquire effective interpersonal communication skills through this course. I managed to achieve this goal as well. I would continue to speak and write in proper English to further improve my communication skills.

One specific focus on the project that I would like to reflect on is the brainstorming stage. During this phase, my team and I encountered several challenges. Firstly, we could not decide on a suitable problem. The moment there was a drawback in the problem that we had identified, we would dismiss the idea and think of a new one. So, we kept changing our problem statement which resulted in a lot of time wastage. After we had finally identified a relevant problem, we then faced difficulties proposing a viable solution. However, we did not give up. We kept researching and ultimately, managed to come up with an innovation for our project, and our team was even selected to present at the Presentation Showcase. From this, I learned that there will always be hurdles in life but, the difficulties I face will make me more determined to achieve my goals and win against all the odds.

The moment I opened Professor Brad's email and read that he wanted my team to share our idea at the Presentation Showcase, I had mixed feelings. I knew that this would be a great opportunity. The thought of presenting to a bigger audience in a larger room almost stopped me. My team was fifth on the presentation list. As I watched the first four teams present, I felt more nervous and anxious. My voice was slightly shaky, and I remember stumbling on a few of my words during my presentation as I was trying too hard to recall my content. However, I felt that I did better than the class presentation as I did not pause and managed to present all my content.

Altogether, effective communication has been a great learning experience for me.


Professor Brad with Team Energy Savers

* Edited on 13/04/2019, 01:09
* Commented on Aufal's, Syahiran's and Jordon's posts

Sunday 31 March 2019

Reflection on the Mapletree Innovation & Entrepreneurship Forum on 20th March 2019



After attending the Mapletree Innovation & Entrepreneurship Forum, I now have a better understanding of the entrepreneurship industry and how important it is to be sustainable. The purpose of the forum was to provide a platform for Singapore Institute of Technology (SIT) students with the entrepreneurial drive to be creative and create innovations that can improve sustainability.

Four distinguished speakers were invited to speak at the forum, and they were Mr Shamir Rahim who is the Founder and CEO of VersaFleet Pte Ltd, Mr Eugene Wong who is a Venture Capitalist of Sirius Ventures, Ms Nancy Ling who is the Co-Founder of EcoU and Mr Zach Wilson who is the Managing Director of AlfaTech & DVUCA.

Some of the topics discussed were how their businesses were able to be brought to the market, in terms of its innovative and sustainability aspects, challenges faced by them and advises they have for aspiring entrepreneurs.

However, what caught my attention was when Ms Nancy shared an anecdote about when she first came to Singapore almost nine years ago. She mentioned how surprised she was when she noticed the amount of plastic used in Singapore and how there were no other sustainable options available at that time. After listening to this, it made me realise the importance of being sustainable.

Since plastic takes a very long time to break down, most of the plastic wastes end up either polluting the landfills or the oceans where it could really harm the ecosystem. If marine animals ingest the plastic wastes, it could kill them. Also, not all forms of plastic are recyclable and, burning of plastic is harmful to the environment. Therefore, I feel that this has to change, and we should not be too dependent on plastics.

Overall, the forum gave me great insights on how entrepreneurship can relate to sustainability. Also, I learned that we need to have the passion and determination to succeed in being an entrepreneur.

Panellists of the Mapletree Forum


* Edited on 10/04/2019, 13:45
* Commented on Syahiran's, Yong Xing's and Baizurah's posts.

Tuesday 12 March 2019

Technical Report


1.0        Introduction

1.1         Background of Problem Identified
This proposal has been prepared in response to the letter of authorisation requesting for proposal on developing sustainable solutions to an engineering problem. 

Electricity has become one of the essential daily needs. With the continued development of technology that requires electricity, the demand for electricity to power up electrical devices has also increased. Despite the importance of electricity, many people are still unaware that they may be responsible for electricity wastage in their everyday lives. For example, electricity wastage is common in educational institutions as faculties and students often forget to turn off the air-conditioners, lights, fans and other equipment before leaving. In April 2018 alone, SIT@Dover has paid a total of $120,384.10 for 634,701.41 kWh of electricity. For more information, see Appendix A.

According to the Energy Market Authority (EMA) of Singapore (n.d.), Singapore imports natural gas from Indonesia and Malaysia to generate approximately 95 per cent of her electricity. Even though natural gas is "cleaner and more energy efficient" than coal and oil, burning of this gas still releases carbon dioxide into the atmosphere (Ng, 2018). Parfit (n.d.) claimed that it is evident that carbon dioxide produced by coal and other fossil fuels is warming the planet. The carbon emitted from the burning of these fossil fuels traps solar energy in the atmosphere, causing global temperatures to increase.

1.2 Existing Technologies
Motion sensors detect movements around a premise and are used in a wide variety of applications which include entryway lighting, automatic doors, hand dryers and intruder alarms. According to Riyanto, Margatama, Hakim, Martini and Hindarto (2018), one of the approaches to motion sensors operation is via motion detection by differentiating the foreground image from the background image to detect the moving objects. In the case of Passive Infrared Receiver (PIR), the device detects the change in infrared radiation caused by moving objects and responds by releasing output voltage (e.g. switching on the lights when a person enters the toilet).

In today's digital era, CCTVs are able to perform object monitoring, unlike the first generation of CCTV. According to Kaur and Singh (2014), human monitoring in video surveillance can be breakdown into four steps; video, background modelling, human detection and human tracking. The first step involves the recording of video footage in a designated area. Background modelling will then define the background in that designated area to differentiate moving objects from the background. Following that, human detection will distinguish humans in the video by separating the foreground from the background. Finally, human tracking will monitor the movements of humans. This is also known as computer vision (CV) where the camera’s software analyses sequential frames of live video for differences and records a motion event when a significant change is detected.

Currently, many new buildings have installed a Building Management System (BMS) to control and monitor the building's electrical equipment such as lightings and power systems. However, in SIT@Dover, electrical appliances such as lights, air-conditioners and fans are operated manually. If students and faculties do not switch off these appliances after leaving the rooms, it will lead to electricity wastage. So, an ideal campus should have an automation system to switch off these appliances when no one is using them.

Human Monitoring Interface (HMI) incorporates existing technologies such as motion sensors and human monitoring into the CCTV to automate the operation of such electrical appliances.

1.3 Problem Statement
Currently, electrical appliances such as air-conditioners, fans and lightings in SIT@Dover are left switched on even when the premises are unoccupied. An ideal situation would be to switch off these electrical appliances when not in use. However, based on our recent observations of SIT@Dover, these appliances are operated manually. Therefore, if the users do not switch off these appliances, it will result in unnecessary electricity wastage.

1.4 Purpose Statement
This proposal aims to propose to the SIT@Dover Estates Division to adopt HMI to the campus, and to emphasise to the Estates Division that this innovation reduces carbon footprint, electricity wastage and saves costs.

2.0 Proposed Solution

2.1 Incorporating Human Monitoring Interface (HMI) into the campus CCTVs
The team’s proposed solution to electricity wastage in SIT@Dover is to incorporate HMI into the campus CCTV. The HMI originates from combining the idea of human monitoring used in video surveillance and the application of motion sensors in buildings to improve energy efficiency.

In the context of reducing electricity wastage in the campus, CCTVs will be used to replace the need for motion sensors to automate electrical appliances such as lights and air-conditioners. Based on the team's observations, the campus has installed CCTVs in high asset rooms such as lecture theatres, computer labs and interactive classrooms to provide surveillance for the rooms. Existing CCTVs can be programmed to have human monitoring as an added function.

The concept of HMI is to detect students and faculties entering the classroom through the CCTV monitoring system and in response, the HMI will switch on the lights and air-conditioners in that classroom (refer to figure 1). Similarly, upon detection of students and faculties leaving, the HMI will then switch off the lights and air-conditioners (refer to figure 2).

Figure 1. Occupied classroom with HMI.


 Figure 2. Unoccupied classroom with HMI.

Artificial intelligence (AI) will be incorporated into the HMI to create a more intuitive approach as compared to the rigid structure commonly found in the application of motion sensors in buildings. According to Jarrahi (2018), AI can assist to simplify complex problems by using the correlation between variables to provide a suitable solution from many possibilities.

In the case of HMI at SIT@Dover, AI can help to determine the call to action for various scenarios using software algorithms. For instance, if students are seen carrying their bags out of the classrooms, it would represent the end of a class, and the lights and air-conditioners can then be switched off. However, for students who entered the classroom with their bags but left without their belongings, the AI will help to determine the optimal time to switch off the electrical appliances.

The implementation of HMI to the campus CCTVs will be customised to individual classrooms. The advantage of this is that it does not affect the HMI’s operation in the entire campus in the event of a single HMI breakdown.

3.0 Benefits of Proposed Solution

3.1 Reduction in Carbon Footprint
With the implementation of HMI to the CCTVs, it reduces electricity wastage which will minimise the electricity consumption of the campus. With electricity consumption reduced, the demand for electricity will also reduce, resulting in a lower carbon footprint due to the reduction in electricity generation.

3.2 Low Implementation Costs
Instead of retrofitting the classrooms with motion sensors, CCTVs can do the job of the motion sensors by introducing a new function to the CCTV system known as human monitoring. Therefore, the campus can avoid the additional costs of purchasing and retrofitting the motion sensors into individual classrooms.

3.3 Innovation Breakthrough in Electricity Management
The adoption of human monitoring using CCTVs to replace motion sensors will provide SIT@Dover's building management with alternative electricity management. Motion sensors often face the challenge of finding a perfect placement for the device to achieve high accuracy. However, with the adoption of human monitoring in the CCTV, this challenge no longer exists. One of the main advantages of adopting this method is that it allows a greater analysis of the venue.

In addition, SIT@Dover can be the first to pilot this project. Upon successful implementation of the HMI, the campus can become a case study for other existing buildings to reduce electricity wastage. Therefore, SIT will be able to gain more publicity and improve its reputation among the other universities in Singapore.

3.4 Reduction in Electronic Waste (E-Waste)
Electronic waste contains toxic materials that are harmful to the environment due to the toxic chemicals it releases into the air when it gets warmed up. The implementation of HMI in CCTV reduces the need for motion sensors in the conservation of electricity. CCTV will then be able to serve an additional function of human monitoring apart from the initial purpose of surveillance. This will result in less electronic waste being generated due to the improvisation made to CCTV.

3.5 Cost Savings
With the implementation of HMI, electricity wastage in SIT can be minimized. This will lead to energy savings and lower electricity bills for SIT. Thus, allowing the school to have more funds that can be better utilized in other areas such as student development.

4.0 Proposal Evaluation

HMI addresses the identified electricity wastage problem at SIT@Dover. With the automation of electrical appliances, it will resolve the issue of operating these appliances manually.

The team has considered alternative automation technologies such as motion sensors and timers for electrical appliances. For instance, timers of electrical appliances in the venue are pre-set according to the booking timeslots. However, if the venue is used for a shorter period when compared to the original timeslot booking, it will lead to electricity wastage. So, the primary reason for choosing human monitoring is that it provides a balanced approach to the problem.

4.1 Challenges
One of the challenges faced in implementing the HMI is the limited accessibility of the software. The human monitoring software is generally used by law enforcers and is not readily available in the market. However, HMI can be developed by collaborating with degree programmes such as Software Engineering and Electrical Engineering in SIT. Collaboration is a good method for implementation of ideas through the capitalisation of specialities from the students in different courses. It can also help to enhance the collaborative culture in SIT and reduce the implementation cost since it is an in-house project.

Another challenge would be the accuracy of human monitoring in the CCTV. There may be chances of false detection by the device. However, this can be easily overcome through the provision of large amounts of data to the human monitoring interface (HMI) for deep learning to take place in the software analysis which will significantly improve the performance and reduce the possibility of error occurrence. According to Brownlee (2019), neural networks aim to decrease the chances of error happening.

Surette (2014) stated that a common concern raised by the public regarding CCTV is the loss of privacy. With the introduction of computer-enhanced systems, it may increase the intrusiveness of public surveillance. The purpose of integrating HMI into CCTV is to monitor the occupancy and automate the operation of electrical appliances in the classrooms. Hence, human monitoring software will only be detecting objects in the shape of a human. It will not invade the privacy of students as the HMI will not be able to identify the students. Moreover, classrooms in SIT @Dover have already been installed with CCTVs. Therefore, the campus would have already addressed the legal and social concerns earlier.

4.2 Limitations
One of the limitations highlighted during an interview with the team's sustainability-built environment professor was the possible effects the HMI could pose on the power consumption.

According to Bramberger, Brunner, Rinner and Schwabach (2004), the use of a pixel-based computation can help reduce the dependency on external access memory, resulting in better performance while minimizing the need for processing power. This could be a solution to reduce the power consumption caused by the HMI.

5.0 Methodology

5.1 Primary Research
Primary research was carried out in the form of an email interview with the SIT@Dover Estates Division, observations of electrical appliances consumption in the campus facilities and a personal interview with SIT sustainability-built environment professor.

The team had interviewed Ms Kerrie Soh Hwee Leng from the SIT@Dover Estates Division to understand the electricity consumption rate and systems used by the electrical appliances in the campus. For more details on the email correspondence between the team and Ms Kerrie Soh, see Appendix B.

The team had carried out a recce of the campus to observe the operation efficiency of electrical appliances. From the recce, the team noticed that lights and air-conditioners were in operation despite the rooms being vacant. For evidence of this, see Appendix C.

The team had also conducted a personal interview with SIT sustainability-built environment professor, Dr Kum Yong Juan, to evaluate the feasibility of the HMI. For a summary of this interview, see Appendix D.

5.2 Secondary Research
Secondary sources from academic articles and news articles were used to improve the credibility of the report. The scope of the articles ranged from the problem of electricity wastage to the application of human monitoring in video surveillance and motion sensors. The information found from the secondary research allows the team to innovate on existing ideas of automation technologies to suit the needs of SIT@Dover in reducing electricity wastage.

6.0 Conclusion

Electricity has an important role in our daily lives. However, the process of generating electricity have harmful effects on the environment, due to the byproducts released during the combustion of fossil fuels. One example would be the increase in carbon dioxide emissions from electricity generation. The increase in carbon dioxide emissions leads to greenhouse effects that would cause Earth to warm up.

Therefore, it is crucial for us to use electricity wisely and reduce any forms of electricity wastage. The adoption of HMI will ensure minimal electricity wastage in SIT@Dover, through the automation of electrical appliances. The HMI adds value to existing CCTVs in the campus that mainly function as surveillance cameras. Thus, reduces implementation costs while playing a part in conserving electricity. SIT@Dover can also enjoy lower electricity bills to allow more funds for other usages. Most importantly, the introduction of HMI creates a potential for SIT to initiate a breakthrough in innovation for electricity management which would help SIT to further establish its reputation among other universities in Singapore despite being a relatively new university.

Monday 18 February 2019

Annotated Summary


Seung, J.O., Kim, C.N., Kyaw, T., Chun, W. & Chua, K.J.E. (2016). Forecasting long-term
electricity demand for cooling of Singapore’s buildings incorporating an innovative air-conditioning technology. Energy and Buildings, 127, 183-193. doi:10.1016/j.enbuild.2016.05.073
                       
This article focuses on one of the methods that can potentially save electricity consumption in Singapore which in return, will reduce Singapore’s carbon footprint. As Singapore’s climate is warm and humid, there is an undeniable demand for buildings in Singapore to be air-conditioned throughout the year. The authors claim that a substantial amount of electricity is saved when there is a change or upgrade in the central air-conditioning system. In the article, the authors propose to implement a “high energy conservative scenario” to predict the electricity consumption of air-conditioners in the long-run. The main feature of this scenario is to replace the traditional mechanical vapour compression (MVC) air-conditioning system with an “adsorbent-based dehumidifier and an indirect evaporative cooling (AD-IEC) technology”. By replacing the traditional air-conditioning system, the authors hope to raise the chiller efficiency to 0.6 kW/RT ± 0.05 or more. A technique has been created to approximate the nationwide cooling load of air-conditioned buildings in Singapore. This technique predicts the long-run electricity consumption depending on the two different scenarios; MVC air-conditioning system and AD-IEC cooling technology. According to the authors, the MVC system consumes 182 m3/day of cooling tower water while the AD-IEC only consumes 75 m3/day which saves over 50% of the total energy consumption. Bottom-up equations have been created to approximate the cooling load and electricity demand for air-conditioning in Singapore buildings between 2002 and 2013. The authors observe that the total cooling load of buildings increases when gross floor area (GFA) increase. They also claim that 31 ± 2% of the total electricity consumption in Singapore is used to supply electricity demands for air-conditioning in building sectors.

* Edited on 19/02/2019, 13:29
* Commented on Lu Sheng's, Aufal's and Daniel's posts.

Saturday 16 February 2019

Summary_Reader Response Draft #3

In the article "Eight failures that left people of Grenfell Tower at mercy of the inferno", Knapton and Dixon (2017) claimed that residents of Grenfell Tower had been put in jeopardy for decades due to a series of flaws related to “building regulation and safety rules”. For instance, there was a revision of building regulations. After 1986, exterior walls were no longer required to be fire-rated. Additionally, external building materials only had to fulfil ‘Class O’ regulations, which did not mention that the building materials had to be non-combustible. It also did not specify a time frame for risk assessments to be conducted whenever alterations to building materials were carried out. Grenfell Tower was deemed to have used combustible materials in its external cladding and, no “safety checks” were conducted following the alteration of cladding materials in May 2016 (Knapton & Dixon, 2017). Furthermore, spaces between the cladding panels allowed wind to pass through and spread the fire to levels above. The absence of a central sprinkler system left the higher levels vulnerable. Moreover, not all doors installed were fire-rated and, there was only one staircase for the residents to escape. Fire experts claimed that the effectiveness of firebreaks was dubious due to the intensity of the fire. Lastly, the government did not review the regulations after the 2009 Lakanal House fire, which claimed the lives of six people (Knapton & Dixon, 2017).

The massive fire at Grenfell Tower was mainly due to the flaws related to the building and fire safety regulations. The relevant authorities failed to thoroughly and promptly examine those regulations. To prevent similar incidents from occurring in the future, it is imperative that the British authorities take quick corrective actions by improving and updating those regulations.

Firstly, the authority responsible for the updating of the fire safety regulations should re-evaluate the staircase requirement. Every building should have at least two exit staircases instead of one. Fire safety regulations stipulated that tall buildings were only required to have one staircase. Residents of Grenfell Tower had no alternative escape route during the fire since the tower had only one staircase. Smoke in the stairwell of Grenfell Tower hindered the rescue process as smoke was entering the stairwell from many levels (Collier, 2017). As many people tried to escape through the staircase, they obstructed and delayed the firefighters from going up.

Secondly, the relevant authority should also re-evaluate the sprinkler requirement. Older buildings could be made compulsory to retrofit sprinklers at every level, regardless of the building height. Fire safety regulations stipulated that sprinklers only had to be installed in buildings of 30 metres in height. Grenfell Tower had no central sprinkler system which made the upper levels more vulnerable to fire since fire hoses have an extension limit. The Fire Protection Association stated: “A sprinkler system would have “undoubtedly” saved lives at the Grenfell Tower blaze” (Baynes, 2017).

Lastly, the relevant authority should review the building regulations. A time frame for risk assessments to be carried out should be specified. All buildings that had altered its building materials were required to undergo fire risk assessments. However, the regulations did not explicitly stipulate a time frame. Although Knapton and Dixon (2017) claimed that there were no "safety checks" conducted at Grenfell Tower after the renovation, Ward (2018) claimed otherwise. A fire risk assessment that was carried out in June 2016, during the renovation at Grenfell Tower, had identified at least twenty "fire safety failings" (Ward, 2018). However, after four months, the issues were not corrected. If the regulations had specified a rectification time frame, the building management would not have delayed the rectification work.

In conclusion, as the case of the Grenfell Tower demonstrates, it is crucial for the British government to review the building and fire safety regulations. It should also be quick to take corrective actions upon completion of the reviews. If these measures had been implemented earlier, the fire at Grenfell Tower could have been prevented.

References:

Baynes, C. (2017, June 18). Ministers ‘ignored warnings on fire safety’ before Grenfell Tower inferno.
Independent. Retrieved from

Collier, H. (2017, June 25). Grenfell Tower’s smoke-filled stairwell could have proved just as deadly as cladding.
Evening Standard. Retrieved from

Knapton, S., & Dixon, H. (2017, June 16). Eight failures that left people of Grenfell Tower at mercy of the inferno.
The Telegraph. Retrieved from

Ward, V. (2018, August 7). Grenfell Tower: Official fire safety warnings served in 2016, documents reveal.
The Telegraph. Retrieved from
https://www.telegraph.co.uk/news/2018/08/07/grenfell-tower-official-fire-safety-warnings-served-2016-documents/

Friday 18 January 2019

Reported Speech

Mr Jurong revealed that he had a bad habit of procrastinating. For instance, when his mother gave him a task, he would respond with a "wait" even when he was not doing anything important.

He further commented that his parents and girlfriend had advised him to change his habit. Mr Jurong also realised that he must kick his procrastination habit as it might affect his work ethics in the future. Therefore, he claimed that he had started to carry out the tasks assigned to him promptly and had become more proactive at managing the tasks at hand.

* Edited on 18/01/2019, 22:01

* Edited on 21/01/2019, 21:09
* Commented on Daniel's, Aufal's and Syed's posts.

Self-Introduction of Nurul Sharfirin

Dear Professor Blackstone

I am writing this e-mail to introduce myself to you formally. My name is Nurul Sharfirin, but you may address me as Nurul. I am a first-year civil engineering student in Singapore Institute of Technology (SIT).

In 2011, I graduated from Temasek Polytechnic with a diploma in intelligent building technology. Upon graduating, I worked for the Housing & Development Board (HDB) as an estate executive for six years. I tended to numerous feedback and complaints. Common issues faced by the residents were spalling concrete and water seepage. Some of the difficulties I faced include not being able to determine the source of the water seepage and not being able to answer the residents’ queries due to my lack of technical knowledge in buildings. These situations made me wonder why such problems occurred and I wanted to know if something could be done to prevent these problems in the future. Having these thoughts ultimately led me to enrol in this programme.

Working for HDB gave me the opportunity to converse with various groups of people, which include the management, supervisors, colleagues, contractors, and residents. Therefore, my communication strength would be my ability to adapt my communication style to different audiences, which includes people of different generations. Apart from that, I would think before I speak so as not to offend the listener or convey the wrong information.

As for my communication weakness, I can be a poor listener at times. When someone is talking to me, I would be thinking of a reply instead of listening to the person attentively. Therefore, I sometimes would misinterpret the message that the speaker is trying to relay, which may result in misunderstandings.

I hope that by the end of this module, I would gain the ability to speak and write confidently and acquire effective interpersonal communication skills.

I look forward to your upcoming lessons. Thank you.

Best regards

Nurul
CVE 1281
Group 4A


* Edited on 18/01/2019, 15:01
* Edited on 21/01/2019, 21:45
* Commented on Syahiran’s, Yong Xing’s and Jayce’s Introduction Posts