Just to inform that ive just had my programming test during the day.. i 'like' it so much :)
because i can learn from my mistakes and be a better one.. Support me!!!
On Tuesday, we got an invited speaker from Titan Thermal Solutions Sdn.Bhd.. it is Mr.Vivek Panicker.. He is an Executive Director. Its such an honor for me to see big boss came down and gave a talk to us.. and somewhat,his experience at British Royal Navy is what making me so
amazed that day.. been graduated from overseas university is what making me more jealous..haha.. but its okay..i have MJIIT already..haha :D
Title of the talk is
ELECTRONIC SYSTEM IN INDUSTRY
Overview of electronic system
Role of electronic in industry
Overview of imaging solutions
Electronics within Thermal Imaging Industries
1. OVERVIEW OF ELECTRONIC SYSTEMS
DEFINITION OF ELECTRONICS
Electronic system are group of electronic circuits designed for a purpose.
IMPORTANCE
Fundamental to our daily life
Key role in advancement of technology
Replaces previous systems & more integrated into current society
Mainstay in future development
Symbol of progressions of electronic system
large --> small --> miniature
simple --> complex
analog --> digital
2. ROLE OF ELECTRONIC IN INDUSTRY
Vital to current information & technology era
penetrated seamlessly through various industries
act as CATALYST to enhanced production & productivity within the industry
industry mostly depend on electronics
been conventionally classify into :
consumer
oldest segment of electronics with the advent of radio receivers
example : microwave, Nintendo
geared towards the push of customer products
Industrial
" work less, do more"
Defence
strategic, creates spin-off electronics for other segments
pushed the growth of material science technology
frontier modern electronics
Communications
current rapid growing field
benefited from semi conductor, lasers, optical fiber technology
Information of processing system
development of IC
applications of Application-specific integrated circuit( ASIC) designs
creation of medical testing & monitoring equipment
example : ECG(electricardiogram) machine, NMK scanner
Imaging
developing & providing the platform for new technique
create a modern structure to provide detail imaging
2 crucial parts :
platform for development or design of new systems
to increase the productivity of current system
3. OVERVIEW OF IMAGING INDUSTRIES
represent object outward form
chemical imaging
simultaneous measurement of spectra & pictures
digital imaging
creating digital images, generally by scanning or through digital photography
geophysical imaging
advance of satellite communication
medical imaging
creating images of the human body / parts to be diagnose or examine disease
molecular imaging
optical imaging
radar imaging
obtaining an image of an object, not just its location and speed
thermal imaging
thermography
advent of electronics; moved imaging into new heights
development of new methodologies
move imaging tech into new wavelength
spectrums for commercial usage
breathtaking ,right??
make me feels like going to famos amos to buy candy~~
hehe..
with the power of mr.google, everything seems possible.. thanks to him i can better understand this color spectra
BASIC CONCEPTS & TERMS
Pixels & Resolution
digital image is formed by pixels
smallest piece of information is an image
often represented using dots, squares, or rectangles
more pixels in an image, the sharper and clearer the image is
Videos & Frames
a digital stream of videos is made of a group of picture(frames) captured across a period of time
more frames per sec, the lesser the jitter in videos
NTSC & PAL
PAL TV STANDARD
25f/sec
resolution : 320 x 700
asia,europe, south america, east africa
NTSC TV STANDARD
30 f/sec
resolution: 480 x 720
north ameriac & japan
requires processing huge quantities of data in short span
4. ELECTRONICS WITHIN THERMAL IMAGING INDUSTRY
originally spin- off defense electronics
use of wavelength in 7-14 micrometer to form an image
referred as dirty imaging system
DIRTY IMAGING PROCESS
lots of pre & post process data required
requires Non-Uniformity Calibration(NUC) on data system
varies in state and space
enables implementation of intensive algorithms
EQUATION
Incident energy (I) = Emitted energy(E) + Transmitted energy (T)+ Reflected energy(R)
equations then are expanded into models that been described in electronics
Graphical depiction of the linear interpolation model for sub pixel 2D motion. The shaded pixels represent the interpolated irradiance value at time k + 1.
2. thermal imaging is been used in various industries:
a. maintenance
b. R&D
c.medical research
3. electronic and the advancement of tech has huge impact on thermal industry
I've really enjoyed reading this post, and love your blog. Thanks.
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