These slides describe the working relation between TBSS Khai Kinh Co. Ltd and Terma Radar in terms of engineering work and training. They also include expertise and experiences of TBSS in radar training and engineering.
TBSS Training and Courses in Defense TechnologyTBSS Group
These slides give an insight of the courses offered by TBSS as standard offered courses and in-house designed courses. It also provides samples of course feedback, TBSS capabilities in Radar and the credential of the Lead Instructor.
Setting Up and Doing Business in Vietnam (PREVIEW SLIDES)TBSS Group
DATE: 24 AUG 2017
TIME: 6.30pm to 10pm
VENUE: Singapore Shopping Center
Vietnam has been developing and changing towards her aim to being a fully industrialized country by 2020. She is committed to this objective in terms of participation at APEC, ASEAN FTA, WTO, and a growing network of free trade agreements.
TBSS set up our 1st office at Ho Chi Minh City in 2014, in 2016, we have 2 offices in Ho Chi Minh City.
In this seminar, we will share our experiences in terms of challenges and problems we faced in setting up the offices and growing our businesses in Vietnam.
SGD30.00 per person payable via bank transfer (Maximum No. of Participants: 25).
OUR BANK DETAILS:
Bank Name: DBS BANK
Bank Address: 12 MARINA BOULEVARD, DBS ASIA CENTRAL, MARINA BAY FINANCIAL CENTRE, TOWER 3 SINGAPORE 018982
Bank Code: 7171
Branch Code: 023
Bank Swift Code: DBSSSGSG
Account Name: TBSS-TRUONG THUONG VIETNAM TRADING AND SERVICES
Account No.: 0239042686
Using real and practical oriented training aids in radar technology trainingTBSS Group
Radar system is one of the most complex systems and the associated courses are difficult to conduct to achieve effective learning outcomes from the students or participants. Radar courses in commercial or military institutions are largely conducted using simulation methods with theoretical analysis. Some practical components have also been used in some institutions. Students, hence, are not exposed as much as the training objectives required, to the practical aspects of the complex radar system. Real systems are used merely in system-specific courses for the training of technicians or engineers to maintain or service the system.
In this paper, the use of real training system is compared against conventional teaching methodology in radar courses. It will also discuss the pros and cons of using real systems in such courses. The paper will then present a typical radar training system that provides real signals and realistic phenomenons. The experience and use of radar training system with course details that has been deployed in some training institutions will then be presented and discussed.
Ocean Optics: Fundamentals & Naval Applications Technical Training Short Cour...Jim Jenkins
This 2-day course is de¬signed for scientists, engi¬neers, and managers who wish to learn the fundamentals of ocean optics and how they are used to predict detectability of submerged objects such as swimmers or submarines. Examples will be provided on how much optical conditions vary by depth, by geographic location and season, and by wavelength. Examples from the in situ online databases and from satellite climatologies will be provided.
TBSS-SkyRadar had entered into agreement where TBSS becomes the authorized dealer for SkyRadar Radar Training Systems in Vietnam, Laos, Thailand and Myanmar. TBSS will also partner SkyRadar in Indonesia in a separate agreement. For projects in Singapore and Malaysia, the working relation is based on case basis as SkyRadar has already dealers in these two countries.
These slides describes the partnership, SkyRadar Radar Training Systems, TBSS expertise in Radar and Proposed TBSS Radar courses with SkyRadar Radar Training Systems.
TBSS Training and Courses in Defense TechnologyTBSS Group
These slides give an insight of the courses offered by TBSS as standard offered courses and in-house designed courses. It also provides samples of course feedback, TBSS capabilities in Radar and the credential of the Lead Instructor.
Setting Up and Doing Business in Vietnam (PREVIEW SLIDES)TBSS Group
DATE: 24 AUG 2017
TIME: 6.30pm to 10pm
VENUE: Singapore Shopping Center
Vietnam has been developing and changing towards her aim to being a fully industrialized country by 2020. She is committed to this objective in terms of participation at APEC, ASEAN FTA, WTO, and a growing network of free trade agreements.
TBSS set up our 1st office at Ho Chi Minh City in 2014, in 2016, we have 2 offices in Ho Chi Minh City.
In this seminar, we will share our experiences in terms of challenges and problems we faced in setting up the offices and growing our businesses in Vietnam.
SGD30.00 per person payable via bank transfer (Maximum No. of Participants: 25).
OUR BANK DETAILS:
Bank Name: DBS BANK
Bank Address: 12 MARINA BOULEVARD, DBS ASIA CENTRAL, MARINA BAY FINANCIAL CENTRE, TOWER 3 SINGAPORE 018982
Bank Code: 7171
Branch Code: 023
Bank Swift Code: DBSSSGSG
Account Name: TBSS-TRUONG THUONG VIETNAM TRADING AND SERVICES
Account No.: 0239042686
Using real and practical oriented training aids in radar technology trainingTBSS Group
Radar system is one of the most complex systems and the associated courses are difficult to conduct to achieve effective learning outcomes from the students or participants. Radar courses in commercial or military institutions are largely conducted using simulation methods with theoretical analysis. Some practical components have also been used in some institutions. Students, hence, are not exposed as much as the training objectives required, to the practical aspects of the complex radar system. Real systems are used merely in system-specific courses for the training of technicians or engineers to maintain or service the system.
In this paper, the use of real training system is compared against conventional teaching methodology in radar courses. It will also discuss the pros and cons of using real systems in such courses. The paper will then present a typical radar training system that provides real signals and realistic phenomenons. The experience and use of radar training system with course details that has been deployed in some training institutions will then be presented and discussed.
Ocean Optics: Fundamentals & Naval Applications Technical Training Short Cour...Jim Jenkins
This 2-day course is de¬signed for scientists, engi¬neers, and managers who wish to learn the fundamentals of ocean optics and how they are used to predict detectability of submerged objects such as swimmers or submarines. Examples will be provided on how much optical conditions vary by depth, by geographic location and season, and by wavelength. Examples from the in situ online databases and from satellite climatologies will be provided.
TBSS-SkyRadar had entered into agreement where TBSS becomes the authorized dealer for SkyRadar Radar Training Systems in Vietnam, Laos, Thailand and Myanmar. TBSS will also partner SkyRadar in Indonesia in a separate agreement. For projects in Singapore and Malaysia, the working relation is based on case basis as SkyRadar has already dealers in these two countries.
These slides describes the partnership, SkyRadar Radar Training Systems, TBSS expertise in Radar and Proposed TBSS Radar courses with SkyRadar Radar Training Systems.
This slides will be used in a talk for Engineering Students at NTU. Please help to assist to provide comments so that the students can be excited and consider taking entrepreneurship as their career.
Ew asia cw and ew joint space for comments (14 sep2016)TBSS Group
Brief Summary
Cyber warfare and electronic warfare are similar in many ways. Electronic warfare is a general tool used to Deny, Disrupt, Destroy, Degrade, and Deceive which are largely achieved through the interactions with enemy’s radio frequency systems. Cyber warfare is similar and more with additional targeted effects on computer systems, networks, and applications. Information operations, however, intend to influence the person sitting behind the keyboard, resulting to wrong decision making.
Col Timothy Presby, Training and Doctrine Command Capabilities Manager of Cyber, Army said in August this year: “We need to be aware that we are very likely going to fight an adversary that is converging using [cyber and electromagnetic activity] integration, ISR and fires across full spectrum conflict, so unless we actually work together and converge our capabilities, we will be left short.”. This shows the importance of being aware and protected in the joint space.
This paper attempts to discuss the significance, seriousness and real threat in the cyber and electronics intelligence joint space. Critical military information can be obtained via cyber means and use by the forces to launch attacks in shortest possible time to cause severe damages to properties and lives.
Protecting commercial radar and communication systemsTBSS Group
This paper discusses the importance of ensuring signal integrity of radar and communication signals that are to be mobilized by the government agencies during war time. It presents the advantages of mobilizing commercial systems and the risk that are associated with it. In addition, it discusses the complexity of sharing these resources among different interested agencies and presents suggested methodologies to mediate the complexities.
Electronic Warfare for the Republic of Singapore Air ForceTBSS Group
This lecture slides cover the basics of EW, Radar and Communications. In addition, it also discusses jamming and deception concepts. Topics covered include
Tutorial Content
This tutorial provides a broad-based discussion of radar system, covering the following topics:
-Introduction to Radars in Military and Commercial Applications
-Radar System Block Diagram
-Radar Antennas (slotted waveguide array, planar array), Transmitter (magnetron, solid-state), Receiver, Pedestal and Radome
-Plot Extraction, Tracking Algorithms and Display
-Radar Range Equation, Detection Performance
-Wave Propagation and Radar Cross Section
-Emerging and Advanced Radar Systems (phased-array, multi-beam, multi-mode, FMCW, solid-state)
In the discussion, practical systems, technical specifications and data will be used to enhance learning.In addition, simulation results will also be used to present findings.
The objective of the tutorial session is to equip participants with solid understanding of radar systems for system level applications and prepare them for advanced and professional radar courses, projects and research.
This tutorial is designed and developed based on the following references:
[1] G. W. Stimson, Introduction to Airborne Radar Second Edition, Scitech Publishing, 1998.
[2] L. V. Blake, A Guide to Basic Pulse-Radar Maximum-Range Calculation, NRL Report 6930, 1969.
[3] K. H. Lee, Radar Systems for Nanyang Technological University, TBSS, 2014.
This write up provides a brief introduction of TBSS and the training and education related works. It provides the biography of our Chief Instructor, our courses and some course outlines. We offer standard and customised courses.
TBSS is offering Radar Courses with SCILAB. We work with local education or training institutions to conduct the courses. Please contact:
Singapore and countries: Contact TBSS-Scilab Singapore Center, karheng@tbssc3e.com
Vietnam: Contact TBSS Khai Kinh Co. Ltd, sieuloan@tbssc3e.com
Malaysia: Contact Trity Technologies, chinluh@tritytech.com
TBSS Project - MPA SSA CFP2015 Panel Evaluation PresentationTBSS Group
TBSS initiated a radar related project which we tried to apply for a government fund to develop. The application was approved but the fund was not used.
Antenna Engineering Training ,Theory, Analysis and DesignTonex
Antenna Training Course by TONEX covers all aspects of Engineering, Theory, Analysis and Design covers all the necessary topics related to antenna theory and antenna array theory.
Learn about a wide variety of antenna concepts and propagation topics. Antenna Training Course is both a theory course and a hands-on course where all the attendees will make their own antennas (TONEX will provide all the material and equipments for testing). Attendees will learn about the basic RF and antenna theory, propagation, antenna design technical considerations, antenna types and RF safety fundamentals.
Audience:
Course designed for :
Engineers
Scientists
Managers
Technicians
Operators
Price: $2,999.00
Course Number: 5024
Length: 3 Days
College Credits: 3
Continuing Education Credits: 17 PDH
Learning Objectives:
Understand the basics theory behind antennas and antenna theory
Discuss the mathematical and physical background that is needed to understand electromagnetic radiation and antennas
Describe antenna radiation and antenna parameters
Master basic definitions of antenna including radiation, gain, bandwidth, directivity, efficiency, effective area, pattern, impedance, antenna noise temperature, and polarization of antennas for wireless communications
Understand the operation of a wide range of antenna types
Carry out planning, calculation and design of a wide range of antenna types
Select antenna types for specific applications and systems
Learn to measure antenna performance on a variety of antenna measurement facility types
Explore new antenna concepts such as smart antenna, Phased-Array, MIMO and MU-MIMO
Course Content:
Fundamentals of Antennas
Why do Antennas Radiate?
Types of Antennas
Physics of Different Antenna Types
Fundamental Parameters of Antennas
Linear Wire Antennas
Building Loop Antennas
Building Arrays Antennas
Introduction to Smart Antenna
In Antenna Training Course, the students will learn how to apply the leaned topics in practice. Antenna Training Course discusses electromagnetic radiation and antenna characteristics such as impedance, VSWR, radiation pattern, polarization, gain, and efficiency.
Call us today at +1-972-665-9786. Learn more about this course audience, objectives, outlines, pricing. Visit our website link below.
Antenna engineering training , theory, analysis and design
https://www.tonex.com/training-courses/antenna-training-engineering/
This slides will be used in a talk for Engineering Students at NTU. Please help to assist to provide comments so that the students can be excited and consider taking entrepreneurship as their career.
Ew asia cw and ew joint space for comments (14 sep2016)TBSS Group
Brief Summary
Cyber warfare and electronic warfare are similar in many ways. Electronic warfare is a general tool used to Deny, Disrupt, Destroy, Degrade, and Deceive which are largely achieved through the interactions with enemy’s radio frequency systems. Cyber warfare is similar and more with additional targeted effects on computer systems, networks, and applications. Information operations, however, intend to influence the person sitting behind the keyboard, resulting to wrong decision making.
Col Timothy Presby, Training and Doctrine Command Capabilities Manager of Cyber, Army said in August this year: “We need to be aware that we are very likely going to fight an adversary that is converging using [cyber and electromagnetic activity] integration, ISR and fires across full spectrum conflict, so unless we actually work together and converge our capabilities, we will be left short.”. This shows the importance of being aware and protected in the joint space.
This paper attempts to discuss the significance, seriousness and real threat in the cyber and electronics intelligence joint space. Critical military information can be obtained via cyber means and use by the forces to launch attacks in shortest possible time to cause severe damages to properties and lives.
Protecting commercial radar and communication systemsTBSS Group
This paper discusses the importance of ensuring signal integrity of radar and communication signals that are to be mobilized by the government agencies during war time. It presents the advantages of mobilizing commercial systems and the risk that are associated with it. In addition, it discusses the complexity of sharing these resources among different interested agencies and presents suggested methodologies to mediate the complexities.
Electronic Warfare for the Republic of Singapore Air ForceTBSS Group
This lecture slides cover the basics of EW, Radar and Communications. In addition, it also discusses jamming and deception concepts. Topics covered include
Tutorial Content
This tutorial provides a broad-based discussion of radar system, covering the following topics:
-Introduction to Radars in Military and Commercial Applications
-Radar System Block Diagram
-Radar Antennas (slotted waveguide array, planar array), Transmitter (magnetron, solid-state), Receiver, Pedestal and Radome
-Plot Extraction, Tracking Algorithms and Display
-Radar Range Equation, Detection Performance
-Wave Propagation and Radar Cross Section
-Emerging and Advanced Radar Systems (phased-array, multi-beam, multi-mode, FMCW, solid-state)
In the discussion, practical systems, technical specifications and data will be used to enhance learning.In addition, simulation results will also be used to present findings.
The objective of the tutorial session is to equip participants with solid understanding of radar systems for system level applications and prepare them for advanced and professional radar courses, projects and research.
This tutorial is designed and developed based on the following references:
[1] G. W. Stimson, Introduction to Airborne Radar Second Edition, Scitech Publishing, 1998.
[2] L. V. Blake, A Guide to Basic Pulse-Radar Maximum-Range Calculation, NRL Report 6930, 1969.
[3] K. H. Lee, Radar Systems for Nanyang Technological University, TBSS, 2014.
This write up provides a brief introduction of TBSS and the training and education related works. It provides the biography of our Chief Instructor, our courses and some course outlines. We offer standard and customised courses.
TBSS is offering Radar Courses with SCILAB. We work with local education or training institutions to conduct the courses. Please contact:
Singapore and countries: Contact TBSS-Scilab Singapore Center, karheng@tbssc3e.com
Vietnam: Contact TBSS Khai Kinh Co. Ltd, sieuloan@tbssc3e.com
Malaysia: Contact Trity Technologies, chinluh@tritytech.com
TBSS Project - MPA SSA CFP2015 Panel Evaluation PresentationTBSS Group
TBSS initiated a radar related project which we tried to apply for a government fund to develop. The application was approved but the fund was not used.
Antenna Engineering Training ,Theory, Analysis and DesignTonex
Antenna Training Course by TONEX covers all aspects of Engineering, Theory, Analysis and Design covers all the necessary topics related to antenna theory and antenna array theory.
Learn about a wide variety of antenna concepts and propagation topics. Antenna Training Course is both a theory course and a hands-on course where all the attendees will make their own antennas (TONEX will provide all the material and equipments for testing). Attendees will learn about the basic RF and antenna theory, propagation, antenna design technical considerations, antenna types and RF safety fundamentals.
Audience:
Course designed for :
Engineers
Scientists
Managers
Technicians
Operators
Price: $2,999.00
Course Number: 5024
Length: 3 Days
College Credits: 3
Continuing Education Credits: 17 PDH
Learning Objectives:
Understand the basics theory behind antennas and antenna theory
Discuss the mathematical and physical background that is needed to understand electromagnetic radiation and antennas
Describe antenna radiation and antenna parameters
Master basic definitions of antenna including radiation, gain, bandwidth, directivity, efficiency, effective area, pattern, impedance, antenna noise temperature, and polarization of antennas for wireless communications
Understand the operation of a wide range of antenna types
Carry out planning, calculation and design of a wide range of antenna types
Select antenna types for specific applications and systems
Learn to measure antenna performance on a variety of antenna measurement facility types
Explore new antenna concepts such as smart antenna, Phased-Array, MIMO and MU-MIMO
Course Content:
Fundamentals of Antennas
Why do Antennas Radiate?
Types of Antennas
Physics of Different Antenna Types
Fundamental Parameters of Antennas
Linear Wire Antennas
Building Loop Antennas
Building Arrays Antennas
Introduction to Smart Antenna
In Antenna Training Course, the students will learn how to apply the leaned topics in practice. Antenna Training Course discusses electromagnetic radiation and antenna characteristics such as impedance, VSWR, radiation pattern, polarization, gain, and efficiency.
Call us today at +1-972-665-9786. Learn more about this course audience, objectives, outlines, pricing. Visit our website link below.
Antenna engineering training , theory, analysis and design
https://www.tonex.com/training-courses/antenna-training-engineering/
Tonex's Phased array radar systems engineering bootcampTonex
Invented a phased array for military radar systems, so that a beam of radio waves can quickly travel across the sky to detect aircraft and missiles.
Nowadays, phased array radar systems have been developed, so the technology is also used in the civilian field.
A phased array is a group of antennas whose strong (additional) radiation pattern can be changed by phasing the signal of each element.
By changing the phase of different elements, the radiation pattern can be modified to enhance/enhance in a given direction.
Advantages of Phased array radar system over single antenna radar system, such as:
The highly movable and flexible beam is under computer control.
Multi-function operation by emitting multiple beams at the same time.
Even if errors and failures occur in certain areas, the system can still operate normally.
Phased array radar technology has made such tremendous progress, therefore, the latest training to stay ahead is more important than ever, such as Tonex's Phased Array Radar System Engineering Training Bootcamp course.
Tonex’s Phased Array Radar System Engineering Bootcamp training program includes:
Phased array radar principles
Latest technological developments
Software
System analysis
Requirements
Architecture, design and operation
Become Skilled At:
Principles and the technology of the phased array antenna and radar system engineering
Analysis
Design
Performance and Implementation
Verification and validation
Operation and Maintenance
Learning Objectives:
List terms, principles, concepts, subsystems and components related to system engineering and design
Examine and Converse the applications and technologies behind the multifunctional phased array radar system
Evaluate the latest technological development, design, engineering and operation process and principle of phased array radar system
Identify principles, procedures, design, engineering techniques and evolution of phased-array radar technology
Evaluate how modern phased array radars work
Talk about Radar Concept of Operation (ConOps), useful engineering, system requirement, system design, architecture, execution, activity and support, and troubleshooting
And many more..
Course Outline:
Radar System Introduction
Basic Knowledge of Phased Array Radar
Phased Array Radar Design
Architecture of Radar Antenna
Detection Target
Explore and Get Functions
Estimate, Track and Correlate Data
Target Classification, Differentiation and Recognition
Interference Suppression Techniques
Architectures of Phased-array Radar
Basic Radar Design Trade-offs
Performance-driven Radar Requirements
Design Considerations for Missile Defense Radar
Precautions For Early Warning Radar Design
Air Defense Radar Design Considerations
Predicted Performance of Phased-array Radars
Learn More:
Phased-Array Radar Systems Engineering Bootcamp
https://www.tonex.com/training-courses/phased-array-radar-systems-engineering-bootcamp/
What LTE Parameters need to be Dimensioned and OptimizedHoracio Guillen
How to Dimension user Traffic in 4G networks
What is the best LTE Configuration
Spectrum analysis for LTE System
MIMO: What is real, What is Wishful thinking
LTE Measurements what they mean and how they are used
How to consider Overhead in LTE Dimensioning and What is the impact
How to take into account customer experience when Designing a Wireless Network
I am thankful to all my Seniors and Juniors who had given me kind words in this autograph.
Change History:
27 July 1st Upload
27 July Revision, change typo Jeanie to Jeannie
Xcos is freely available and distributed with Scilab.
Xcos is a graphical editor to design hybrid dynamical systems models. Models can be designed, loaded, saved, compiled and simulated.
Ergonomic and efficient solution for industrial and academics needs, Xcos provides functionalities for modeling of mechanical systems (automotive, aeronautics...), hydraulic circuits (dam, pipe modeling...), control systems, etc.
Scilab Vietnam User Group, funded, managed and administered by TBSS Khai Kinh Co. Ltd. supports the use and application of Scilab in Vietnam.
Distributed under CeCILL license (GPL compatible), Scilab is free and open source software for numerical computation providing a powerful computing environment for engineering and scientific applications.
Scilab Vietnam User Group, funded, managed and administered by TBSS Khai Kinh Co. Ltd. supports the use and application of Scilab in Vietnam.
TBSS-Scilab Singapore Center Company Information 24 July 2014TBSS Group
Scilab is an open-source mathematical modeling software that is comparable to Matlab. Scilab Enterprise is committed to the French Government to maintain it as an open-source software. TBSS-Scilab Singapore Center is the partner of Scilab in Singapore.
A study on data fusion techniques used in multiple radar trackingTBSS Group
This project aimed to compare the use of and resultant errors when Measurement Fusion (Plot Fusion) and Track Fusion were used to combine data from various sensors in a simulated environment analogous to the Singaporean environment. The environment and analysis was done wholly using a program executed by MATLAB 6.1, and results showed that Measurement Fusion was more accurate when tracking objects following a path with many turns. However, the major source of error was not the fusion algorithm, but the inclusion algorithm.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
2. • TBSS Group (Head Office, Singapore)
• TBSS Center for Electrical and Electronics
Engineering (Singapore)
• TBSS-Truong Thuong Vietnam Trading and
Services (Singapore) – Saigon Vietnamese
Delicacy (Singapore)
• TBSS-Scilab Singapore Center (Singapore)
• TBSS-Smiling Star (Singapore)
• TBSS Personalized Tour Co. Ltd. (Vietnam)
• TBSS Khai Kinh Co. Ltd. (Vietnam) – Neways
Vietnam Trading – Online Service – Consultancy
Co. Ltd. (Vietnam)
3. • Terma is a Danish radar manufacturer
• Founded in 1949, Terma has built and
maintained its position as an innovative,
competent, and professional global provider of
civilian and military systems within the fields
of Aerospace and Defence, Radar Systems and
Space.
• Terma radars have been in the market for more
than 60 years, giving us unique experience with
producing quality radars systems that meet the
customer's needs
4. INTERNATIONAL
VTS/CSS
REFERENCE
Tham khảo những
vts/ css quốc tế
Naval References
Surface Movement Radar
VTS & Coastal surveillance
To date, more than 1800 TERMA systems Worldwide including Major Ports;
Ngày nay có hơn 1800 hệ thống TERMA trên toàn thế giới trong đó bao gồm những khu vực trọng điểm
Hong Kong
Port of Ho Chi Minh City, Vietnam, Hai Phong Port, Vietnam, HCMC Airport and Hanoi Airport
Port of London, UK
Singapore Port, Singapore, Sinapore Changi Airport
Hamburg, Germany
New York, US
Rotterdam, Nederland
Antwerp Belgium
Gothenburg, Sweden
5. • Terma provide Radar Systems to Authorities and Professional
Customers, who require reliable surveillance of; Chúng tôi cung cấp hệ
thống Rada đến những chuyên gia trong lĩnh vực và các cơ quan đang
cần đến hệ thống giám sát đáng tin cậy.
• The friendly, co-operative targets Những đối tác hàng đầu
Traffic control in waterways, harours and airports Hệ thống điều
khiển giao thông đường biển, bến tàu và sân bay
• The hostile, non co-operative targets Những thành phần không cộng tác
Illegal Immigrants Nhập cư bất hợp pháp
Smugglers Buôn lậu
Intruders Những thành phần xâm nhập
Illegal fishing Đánh bắt trái phép
Polluters Những thành phần gây ô nhiễm
Pirates, Terrorists Cướp biển , khủng bố.
6. Command, Control and Sensor Systems
Hệ thống Cảm Biến, Kiểm Soát và Chỉ Huy
• Naval Hải quân
• Naval command and control solutions Những giải pháp
cho việc kiểm soát và chỉ huy trong hải quân
• Ship self-protection Khả năng tự bảo vệ tàu.
• Tactical communication Truyền thông tin một cách chiến
lược
• Naval surveillance Giám sát hải quân.
• Airborne environmental surveillance Giám sát môi
trường không vận
• Security An Ninh
• Coastal surveillance Giám sát bờ biển
• Vessel Traffic Service Dịch vụ lưu thông tàu
• Airport Surface Movement Biến động trên bề mặt sân bay
• Ballistic Missile Defense Phòng thủ tên lửa đạn đạo
• Integrated air and missile defense Phòng thủ tên lửa đối
lưu
• Camp and force protection Bảo vệ khu vực đóng quân và
lực lượng quân đội.
• Critical infrastructure protection Bảo vệ nhũng cơ sở hạ
tầng quan trọng
7. TBSS represents Terma in the followings:
• RADAR SENSOR SYSTEMS
– SCANTER2001/5000 Surveillance Radars
• GLOBAL SUPPORT & SERVICES
– Spare parts for items listed above
– Services such as Engineering
– Training Courses – operator and maintainer training
After July 2014 after TBSS Khai Kinh Co.
Ltd. was incorporated in Vietnam
Before TBSS Khai Kinh Co. Ltd was set
up, Dr LEE worked with Terma via the
partner of TBSS Group
8. TBSS represents Terma Radar in Vietnam
• Delivered 5 Vessel Traffic Radars to the Vietnam Port
Authority
• Deliver 2 airport radars to the Vietnam Aviation Authority
• Participated in the marketing phase and commercial effort
• Participated in installation, commission, integration and
testing
• Participated in system courses
15. • TBSS represents Skyradar, a radar system training
system, in Vietnam
• TBSS develops radar courses with practical hands
on using SkyRadar Radar Training Systems, some
of the courses are,
but not limited to,
– Radar Theory with
Practical using Radar
Training System
– FMCW and SAR
Radars with Radar
Training System
– Practical Phased
Array Radar and
Beam Forming
Techniques
16. • The radar and defense businesses in equipment,
training and solutions is led by Dr LEE Kar Heng
• Dr LEE worked for the Police Coast Guard,
Maritime and Port Authority, Defense Science
and Technology Agency, DSO National
Laboratories and Navy in Singapore before
working for TBSS Group
• Dr LEE had conducted radar courses, involved in
Coastal Surveillance, Vessel Traffic System, Fire
Control Radars and other radar projects
17. Chief, TBSS Group, TBSS Center for Electrical and Electronics Engineering, TBSS-
Truong Thuong Vietnam Trading Services, TBSS-Scilab Singapore Center, TBSS-
Smiling Star, TBSS Khai Kinh Co. Ltd., TBSS Personalized Tour Co. Ltd.
Manager, Police Technology Department, Singapore Police Force/Ministry of Home
Affairs
Section Head/Electronics Engineer, Maritime Electronics Section, Maritime and Port
Authority of Singapore
Project Lead/Consultant, Sensor Systems Division, Defence Science & Technology
Agency
Subject Head/Lecturer, School of Engineering (Telecommuications), Temasek
Polytechnic
Engineer/Member of Technical Staff, Center for Radar Systems, DSO National
Laboratories
Lecturer/Class Form Teacher, ITE Yishun/ITE Bukit Merah, Institute of Technical
Education
Field Service Engineer/Manager, Kongsberg Norcontrol, Brown Automation &
Consulting Engineering Pte. Ltd.
Electronic Specialist/Instructor, Weapon Systems (Fire Control Radar and Computer
Systems), Republic of Singapore Navy
18.
19. Lecturer/Course Developer, Customized WiMAX Course, Rhode and
Schwarz, Singapore, WiMAX Architecture and Standards, Physical Layers
and MAC Layer, Security and WiMAX Network Design
Lecturer/Course Developer, Basic Radar Theory and Tracking Course,
Ministry of Defence, Airborne Radar, 2D Surveillance Radar, Radar
Tracking Techniques and Algorithms
Lecturer/Course Developer, Basic Radar System Engineering, Ministry of
Defence, Introduction to Radar, Radar Plot Extraction and Tracking, Radar
Tracking Algorithms
Lecturer/Course Developer, Basic Phased Array Radar Systems, Ministry
of Defence, Introduction to Antennas, Phased Array Antenna, Beam
Forming, Adaptive Processing
Lecturer/Course Developer, Wireless Local Area Network, Ngee Ann
Polytechnic, IEEE 802.11, Phyical Layer, MAC layer, Security
Lecturer/Course Developer, Electronic Warfare Seminar, Republic of
Singapore Air Force, ES, EP, Radar Systems, Communications System
C SEE
20. Lecturer/Course Developer, Radar for NTU, Nanyang Technological
University, Radar Block Diagram, Radar Equation, Radar Waveforms
Lecturer/Seminar Organizer, Coastal Surveillance System, Border
Defence Force (VIETNAM), Coastal Surveillance System Configuration,
Radar, Electro-Optics
Lecturer/Course Developer, Radar Theory for Maintenance and
Operations, Raytheon Anschütz, Singapore, Radar Block Diagram, Radar
Equation, Radar Components, Radiation and Safety, Raytheon Radar
Circuits
Assistant Course Trainer, Scanter 5201/5202 Training, Vinamarine, Hai
Phong Authority, Vietnam, Theory and Practical Training on Scanter 5201
and 5202
21. • Member of Institution of Electrical and Electronics Engineers (IEEE),
1995 – present
• Member of Association of Old Crows (AOC), 2015 – present
• Secretary, Education Chapter, IEEE Singapore Section, 2006 – 2007
• Chairman, Education Chapter, IEEE Singapore Section, 2008 – 2009
• Treasure, Education Chapter, IEEE Singapore Section, 2015 – present
• Committee Member, Educational Activities Board, IEEE Region 10,
2015 – present
22.
23. K. H. Lee and M. S. Leong, “A Study on Coupling Effect Between Antennas
Installed on a Common Structure”, IEEE Asia Pacific Microwave Conference,
1999.
K. H. Lee, “Antenna Coupling”, B.Tech(Hons) Project Report, NUS, 1999.
K. H. Lee, S. A. Hamilton and M. S. Leong, “A Tri-Band Circular Polarized
Microstrip Antenna”, IEEE APS/URSI Intl. Conf., 2002.
K. H. Lee, “A Simulation of Tracking Algorithms Used in Radar Data
Processing”, M.Sc Dissertation, University of Sheffield, 2001.
K. H. Lee, “Design and Development of Broadband and Multiband Antennas”,
M.Eng Research Thesis, NUS, 2003.
J. W. Teo and K. H. Lee, “The Propagation Properties Of Electromagnetic Waves
In The Application Of Through-Wall Radar Sensors”, NUS Science Research
Congress, 2003.
24. X. Q. Tan and K. H. Lee, “A Study on Data Fusion Techniques Used in Multiple
Radar Tracking”, NUS Science Research Congress, 2004.
B. Moh and K. H. Lee, “A Study on the use of Frequency Modulated Continuous
Wave Radar in the Detection of Swimmers”, NUS Science Research Congress,
2005.
K. Li, T. S. Tan, J. Tan and K. H. Lee, “Taxi on The Way”, ScilabTEC International
Conference, 2015.
25. Dr LEE of TBSS will be giving a tutorial at the IEEE ATC 2015 in HCMC
on 24-25 October 2015: http://www.rev-conf.org/tutorials-.html