Module code / TE-4304
Module Title / Energy Efficiency and Policy
Degree/Diploma / Bachelor of Engineering (Energy Systems)
Type of Module / Major Option
Modular Credits / 4 / Total student Workload / 8hours/week
Contact hours / 4hours/week
Prerequisite / None
Anti-requisite / None
Instructor
Dr.NorazanitaShamsuddin
  • OfficeLocation: : CG-9, Integrated Sciences Building
  • Tel: 7231486
  • E-mail:

Office Hours Wednesday: 2:30 p.m –3:45 p.m
Course Objectives
  1. Ability to discuss energy efficiency and policy in order to use energy efficiently and reduce negative environmental impact.
  2. Ability to apply the concept of energy efficiency and policy and the methods used for energy efficiently in primary sectors.
  3. Ability to analyse energy efficiency and policy with regards to implementation of modern technology.
  4. Ability to integrate the understanding into an appreciation of advanced technology that must be employed to maintain a liveable environment while improving economic circumstances for the population or country.

Course Outcomes
On successful completion of this module, a student will be expected to be able to:
1. Knowledge /
  1. Describe the different types of energy efficiency and policy program and emissions in the country.
  2. Comprehend energy efficiency standard and energy policy that is suitable to be implemented in the country.
  3. Apply basic concept of energy and calculate potential energy savings and potential emission reduction from the program.

2. Cognitive Skills /
  1. Analyse the environmental impact before and after energy efficiency program is implemented.

  1. Interpersonal Skills and Responsibilities
/
  1. Justify the need of implementation of energy efficiency program in the buildings and/or country.
  2. Work cooperatively in groups when reviewing case studies.

  1. Communication, IT, and Numerical Skills
/
  1. Evaluate complex problems related to energy efficiency and policy.
  2. Recommend potential policy program and calculate its potential benefit to the society and the environment.

Module Contents
  • Emission production, reduction and emission taxation
  • Energy efficiency-lighting retrofits
  • Energy efficiency standards and labels
  • Energy and environmental impact of energy efficiency program
  • Economic impact and analysis of energy efficiency program
  • Energy labelling and market transformation of energy efficiency and policy program

Assessment / Formative assessment / Monthly online multiple choice questions will be used to test and to give feedback for their learning.
Summative assessment / Examination: 0%
4 Assignments 60%
1 individual report 30%
1 oral presentation10%
Text Books and References

Faculty of Integrated Technologies

Universiti Brunei Darussalam

TENTATIVE COURSE SCHEDULE:

Topic / Outcomes / Week No.
Emission production, reduction and emission taxation / 1.1, 1.2, 1.3 / 1, 2
Energy efficiency-lighting retrofits / 1.3, 3.2 / 3, 4, 5
Energy efficiency standards and labels / 2.1, 3.1 / 4, 5, 6
Energy and environmental impact of energy efficiency program / 2.1, 3.1, / 7, 8
Economic impact and analysis of energy efficiency program / 3.2, 4.1, 4.2 / 9, 10, 11
Energy labelling and market transformation of energy efficiency and policy program / 4.1, 4.2 / 12, 13, 14
Module code / TF-4304
Module Title / Mobile and Wireless Network Systems
Degree/Diploma / Undergraduate GenNEXT Bachelor of Engineering Degree
Type of Module / Major Option
Modular Credits / 4 / Total student Workload / 10hours/week
Contact hours / 4hours/week
Prerequisite / InfoComm Networks
Anti-requisite / None
Instructor
Dr. SandhyaAneja
  • OfficeLocation: : Block C, Integrated Sciences Building
  • Tel: +673-8721817
  • E-mail:

Office Hours TBA
Course Objectives
  1. Understand wireless communication technology terminologies- signal encoding, spread spectrum, coding and error control
  2. Understand Cellular networks, TDMA, FDMA, CDMA, Wireless local loop, Mobile IP and Wireless access protocol, cellular services 1G/2G/3G /4G/5G, LTE, UMTS, GSM, CDMA etc
  3. Understand wirelessLANs, IEEE 802.11 standard, architecture and protocols, IEEE 802.15 Bluetooth standard and protocol stack
  4. Understand Wireless networks, Mobile and ad hoc networks, Sensor networks, AODV, DSDV, DSR routing protocols, MACAW MAC layer protocol
  5. Understand Network simulation tool to be used to setup and conduct experiments on wireless and mobile networks.

Course Outcomes
On successful completion of this module, a student will be expected to be able to:
  1. Knowledge
/
  1. Ability to differentiate between Internet, Cellular Network, WirelessLANs, Ethernet, Mobile wireless networks
  2. Familiarity with IEEE standards defined for wireless networks
  3. Role of wireless communication technology for the efficiency of wireless networks
  4. Basic differences between clellular services 1G/2G/3G/4G/5G, GSM,CDMA, LTE, UMTS
  5. Design protocols for wireless and sensor networks

2. Cognitive Skills /
  1. Need of standards to setup a wireless network and communication over the same
  2. Techniques to improve the use of spectrum for efficiency of wireless services
  3. Choose protocols for wireless networks

  1. Interpersonal Skills and Responsibilities
/
  1. Recent and future trends in wireless technologies
  2. Set up possible topologies for mobile wireless networks

  1. Communication, IT, and Numerical Skills
/
  1. Use advance network simulation tool suitable for wirelessLANs, wireless networks-ad hoc networks, sensor networks, cellular networks

Module Contents
  • Wireless LANs: WLAN requirements and basics, IEEE 802.11 protocol architecture
  • MAC protocol CSMA/CA, frame addressing, Bluetooth, Bluetooth protocol Architecture
  • Cellular networks: Cellular Concepts, Cell splitting, Cellular network architecture
  • Control channel, Handoff, Difficulty in Handoff detection, Location area based protocols, Wireless access protocol
  • Ad hoc and Sensor networks: MACAW MAC Layer protocol , Transport layer protocols
  • Routing in Ad Hoc Networks, AODV, DRS, DSDV, Omni Antenna vs. Directional
  • Antenna Pros and Cons, and interferences
  • Wireless Data services: Cellular Digital Packet Data (CDPD), Generalized Packet Radio Service (GPRS), GSM, Standards like LTE, 1G/2G/3G/4G/5G
  • Putting all together in NS2

Assessment / Formative assessment / Monthly online multiple choice questions will be used to test and to give feedback for their learning
Summative assessment / Online Test - I 10%
Online Test - II 10%
Laboratory Assignment - I 10%
Laboratory Assignment - II 10%
Final Exam (comprehensive, closed book) 60%
Text Books and References /
  1. Wireless communications and networks
By: William Stallings, Pearson education

Faculty of Integrated Technologies

Universiti Brunei Darussalam

TENTATIVE COURSE SCHEDULE:

Topic / Outcomes / Week No.
Signal encoding, spread spectrum, coding and error control / 2.2, 1.3 / 1,2
Wireless LANs: WLAN requirements and basics, IEEE 802.11 protocol architecture / 1.1, 2.1, 1.2 / 3
MAC protocol CSMA/CA, frame addressing, Bluetooth and Home RF, Bluetoothprotocol Architecture / 1.1, 2.1, 1.2 / 4
Cellular networks: Cellular Concepts, Cell splitting, Cellular network architecture / 1.1, 1.4, 2.4 / 5
Network simulation tool / 4.1 / 6,7
Control channel, Handoff, Difficulty in Handoff detection, Location area basedprotocols / 2.1, 2.4 / 8,9
Ad hoc and Sensor networks: MACAW MAC Layer protocol , Transport layer protocols / 1.1, 1.5 / 10
Routing in Ad Hoc Networks, AODV, DRS, DSDV, Omni Antenna vs. Directional / 2.3 / 11,12
Antenna Pros and Cons, and interferences / 2.2, 1.3 / 13
Wireless Data services: Cellular Digital Packet Data (CDPD), Generalized Packet RadioService (GPRS), GSM, Standards like LTE / 1.4, 3.1 / 14
Final exam
Module code / TM-4304
Module Title / Manufacturing Management and Manufacturing Systems Modeling (M3SM)
Degree/Diploma / Bachelor of Engineering (Manufacturing Systems)
Type of Module / Major Option
Modular Credits / 4 (2 + 2) / Total student Workload / 8hours/week
Contact hours / 4hours/week
Prerequisite / None
Anti-requisite / None
Instructor
Dr. Asif Iqbal
  • OfficeLocation: C1-5, Integrated Sciences Building
  • Tel: 8851803
  • E-mail:

Office Hours Tuesday & Wednesday: 2:30 p.m –3:45 p.m
Course Objectives
  1. Ability to describe various types of production systems and understand groupings of parts and workstations.
  2. Ability to plan and control production and schedule part-workstation engagements.
  3. Ability to plan acquisition of raw material and other resources for efficient production
  4. Ability to develop production models for multiple parts and multiple workstations
  5. Ability to model and simulate a production environment/situation on a computer
  6. Ability to optimize production parameters by simulation

Course Outcomes
On successful completion of this module, a student will be expected to be able to:
  1. Knowledge
/
  1. Distinguish between various types of production types and models.
  2. Understand production plans and schedules for discerte parts manufacturing
  3. Develop part families and workstation groups based on processing similarities
  4. Understand planning approach for timely managing resources of production
  5. Develop production models with various combinations of parts and workstations
  6. Develop mathematical model for batch production
  7. Model and simulate production processes on a computer environment

2. Cognitive Skills /
  1. Plan workstation layout, parts sequencing and scheduling for production efficiency.
  2. Use mathematics knowledge to model production of discrete parts.

  1. Interpersonal Skills and Responsibilities
/
  1. Manage work environment for maximum efficiency.
  2. Optimize the resources in a production environment for minum wastage.
  3. Work effectively as an team member towards project completion

  1. Communication, IT, and Numerical Skills
/
  1. Communicate effectively with team members
  2. Learn to use a discrete event simulation software for production modeling and simulation
  3. Use computer simulation to evaluate parameters under various production scenarios
  4. Apply production modeling and simulation to optimize production parameters

Module Contents
  • Types of Production (Job Shop, Batch, Mass)
  • Process Planning
  • Group Technology
  • Manufacturing Resource Planning
  • Production Scheduling
  • Factory Models
  • Single Workstation Models and Time Variability Processing
  • Multiple-Stage Single-Product Factory Models
  • Multiple Product Factory Models
  • Batch Production Modeling
Lab Work:
  • Basics of Simulation Parameters
  • Simple Model Development and Manual Simulation
  • Imitating Manual Simulation in Arena
  • Input Modelling
  • Queuing Model and Building Extended Model
  • Random Generation and Replications in Arena
  • Output Analysis of Single Model/Theoretical Base
  • Meta Modelling/Small Manufacturing Model
  • Optimization via Simulation
  • Students Projects (Modeling and Simulation)

Assessment / Formative assessment / Monthly online multiple choice questions will be used to test and to give feedback for their learning
Summative assessment / Modeling and simulation lab reports (5) 25 %
Class test (1) 15 %
Project (1) 20 %
Final Exam (comprehensive) 40 %
Text Books and References /
  • Adithan, M. (2007). Process Planning and Cost Estimation. New Age International (P) Limited, Publishers.
  • Curry, G. L., & Feldman, R. M. (2010). Manufacturing systems modeling and analysis. Springer Science & Business Media.
  • Alharkan, I. M. (2005). Algorithms for sequencing and scheduling. Industrial Engineering Department, King Saud University, Riyadh, Saudi Arabia.

Faculty of Integrated Technologies

Universiti Brunei Darussalam

TENTATIVE COURSE SCHEDULE:

Topic / Outcomes / Week No.
Types of Production (Job Shop, Batch, Mass) / 1.1 / 1
Process Planning / 1.2, 3.1 / 2-3
Group Technology / 1.3, 2.1 / 4-5
Manufacturing Resource Planning / 1.4, 2.2, 3.2 / 6-7
Production Scheduling / 1.2, 2.1, 3.1 / 8
Factory Models / 1.5, 2.2 / 9
Single Workstation Models and Time Variability Processing / 1.5, / 10
Multiple-Stage Single-Product Factory Models / 1.5, 2.2 / 11-12
Multiple Product Factory Models / 1.5 / 13
Batch Production Modeling / 1.6, 2.2 / 14
Lab Work:
Basics of Simulation Parameters / 1.7, 4.2 / 1
Simple Model Development and Manual Simulation / 2.2 / 2
Imitating Manual Simulation in Arena / 1.7, 4.2 / 3
Input Modelling / 1.7 / 4
Queuing Model and Building Extended Model / 1.7, 4.3 / 5-6
Random Generation and Replications in Arena / 1.7 / 7-8
Output Analysis of Single Model/Theoretical Base / 4.3 / 9-10
Meta Modelling/Small Manufacturing Model / 1.7, 4.2 / 11-12
Optimization via Simulation / 4.4 / 13-14
Students Projects (Modeling and Simulation) / 3.3, 4.1 / 2-14
Final exam