Competency Demonstration Report (CDR) Example
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This document provides a sample Competency Demonstration Report (CDR) showcasing an individual's engineering skills and experience. It highlights their abilities in areas such as scanner motor management, polymer vector classification, spectrum occupancy analysis, and effective team leadership. The report is structured according to the required format, demonstrating proficiency in relevant competencies.
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Narsammolla Balvanth Reddy
Summary Statement
Competency Demonstration Report (CDR)
Summary Statement
Competency Demonstration Report (CDR)
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Professional Engineer: Summary Statement
Competency Element A brief summary of how you
have applied the element
Paragraph number in the
career episode(s) where the
element is addressed
PE 1 KNOWLEDGE AND SKILL BASE
PE1.1 Comprehensive, theory
based understanding of the
underpinning natural and
physical sciences and the
engineering fundamentals
applicable to the engineering
discipline.
I) I have studied the
accelerometers and
gyroscopes for integrating
their functionalities for
improvement.
II) I have used Polynomial
Classifier to work in sub-
dimension in the input matrix.
III) I have conducted an
experiment for determining
the spectrum occupancy of the
IoT devices.
Career Episode 1: CE 1.2.3,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.3.1
and CE 2.3.3
Career Episode 3: CE 3.2.1,
CE 3.3.1 and CE 3.3.2
PE1.2 Conceptual
understanding of the
mathematics, numerical
analysis, statistics, and
I) I was able to evaluate
altitude, position and velocity
measurements.
II) Eigen-vectors have been
Career Episode 1: CE 1.3.1
1
Competency Element A brief summary of how you
have applied the element
Paragraph number in the
career episode(s) where the
element is addressed
PE 1 KNOWLEDGE AND SKILL BASE
PE1.1 Comprehensive, theory
based understanding of the
underpinning natural and
physical sciences and the
engineering fundamentals
applicable to the engineering
discipline.
I) I have studied the
accelerometers and
gyroscopes for integrating
their functionalities for
improvement.
II) I have used Polynomial
Classifier to work in sub-
dimension in the input matrix.
III) I have conducted an
experiment for determining
the spectrum occupancy of the
IoT devices.
Career Episode 1: CE 1.2.3,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.3.1
and CE 2.3.3
Career Episode 3: CE 3.2.1,
CE 3.3.1 and CE 3.3.2
PE1.2 Conceptual
understanding of the
mathematics, numerical
analysis, statistics, and
I) I was able to evaluate
altitude, position and velocity
measurements.
II) Eigen-vectors have been
Career Episode 1: CE 1.3.1
1
computer and information
sciences which underpin the
engineering discipline.
cross-multiplied in pseudo
inverse the Eigen-vectors to
get an infinity number of
iteration.
III) I have monitored the
various spectrums while
dividing the zones based on
varying population ad urban
environment density.
Career Episode 2: CE 2.3.2,
CE 2.3.3 and CE 2.3.4
Career Episode 3: CE 3.3.1
PE1.3 In-depth understanding
of specialist bodies of
knowledge within the
engineering discipline.
I) I have studied various past
articles and journals and
observed that coupling
accelerometer and Gyroscopes
provides various advantages
over the acceleration
measurements and angular
velocity.
II) I have utilized my
knowledge and applied them
efficiently for the probabilistic
reasoning, polynomial
classifier, neural networking
Career Episode 1: CE 1.3.1
Career Episode 2: CE 2.3.1,
CE 2.3.4, CE 2.2.5 and CE
2.4.2
Career Episode 3: CE 3.3.1,
CE 3.3.3
2
sciences which underpin the
engineering discipline.
cross-multiplied in pseudo
inverse the Eigen-vectors to
get an infinity number of
iteration.
III) I have monitored the
various spectrums while
dividing the zones based on
varying population ad urban
environment density.
Career Episode 2: CE 2.3.2,
CE 2.3.3 and CE 2.3.4
Career Episode 3: CE 3.3.1
PE1.3 In-depth understanding
of specialist bodies of
knowledge within the
engineering discipline.
I) I have studied various past
articles and journals and
observed that coupling
accelerometer and Gyroscopes
provides various advantages
over the acceleration
measurements and angular
velocity.
II) I have utilized my
knowledge and applied them
efficiently for the probabilistic
reasoning, polynomial
classifier, neural networking
Career Episode 1: CE 1.3.1
Career Episode 2: CE 2.3.1,
CE 2.3.4, CE 2.2.5 and CE
2.4.2
Career Episode 3: CE 3.3.1,
CE 3.3.3
2
and various mathematical
models.
III) I have categorized the
occupancy of IoT based on the
urban environment and further
drawn relation between the
population density and
spectral occupancy.
PE1.4 Discernment of
knowledge development and
research directions within the
engineering discipline.
I) I have reviewed and studied
various papers and journals for
evaluating the Kalman Filter
in the system for reducing the
errors.
II) I have created more rooms
for expansion of polynomial
that accommodates the non-
linear terms of input.
III) I have used white color for
representing the sample signal
below θT threshold value.
Career Episode 1: CE 1.2.5,
CE 1.3.1 and CE 1.4.2
Career Episode 2: CE 2.3.2,
CE 2.3.4 and CE 2.4.1
Career Episode 3: CE 3.3.2,
CE 3.3.3 and CE 3.4.1
PE1.5 Knowledge of
contextual factors impacting
I) I have therefore utilized
transformational matrices and
Career Episode 1: CE 1.2.1,
3
models.
III) I have categorized the
occupancy of IoT based on the
urban environment and further
drawn relation between the
population density and
spectral occupancy.
PE1.4 Discernment of
knowledge development and
research directions within the
engineering discipline.
I) I have reviewed and studied
various papers and journals for
evaluating the Kalman Filter
in the system for reducing the
errors.
II) I have created more rooms
for expansion of polynomial
that accommodates the non-
linear terms of input.
III) I have used white color for
representing the sample signal
below θT threshold value.
Career Episode 1: CE 1.2.5,
CE 1.3.1 and CE 1.4.2
Career Episode 2: CE 2.3.2,
CE 2.3.4 and CE 2.4.1
Career Episode 3: CE 3.3.2,
CE 3.3.3 and CE 3.4.1
PE1.5 Knowledge of
contextual factors impacting
I) I have therefore utilized
transformational matrices and
Career Episode 1: CE 1.2.1,
3
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the engineering discipline. inverse models for sensing the
coordinate system.
II) I have worked with the
vital objective for evaluating
and proposing the sub
millimeter system with the
application of patter
recognition technique.
III) I have calculated the duty
cycle over different frequency
environment for obtaining
detailed insight about the
spectrum occupancy.
CE 1.2.2,
Career Episode 2: CE 2.2.1,
CE 2.2.2
Career Episode 3: CE 3.2.1,
CE 3.2.2
PE1.6 Understanding of the
scope, principles, norms,
accountabilities and bounds of
contemporary engineering
practice in the specific
discipline.
I) I have analysis the
traditional bulky profiling
machines for evaluating the
functionality and operations
used.
II) I have further developed
the probabilistic and
mathematical reasoning for
examining the variation of the
Career Episode 1: CE 1.2.3,
CE 1.3.1, CE 1.3.4 and CE
1.3.2
Career Episode 2: CE 2.2.3,
CE 2.3.1 and CE 2.3.2
Career Episode 3: CE 3.2.3,
CE 3.3.1 and CE 3.3.2
4
coordinate system.
II) I have worked with the
vital objective for evaluating
and proposing the sub
millimeter system with the
application of patter
recognition technique.
III) I have calculated the duty
cycle over different frequency
environment for obtaining
detailed insight about the
spectrum occupancy.
CE 1.2.2,
Career Episode 2: CE 2.2.1,
CE 2.2.2
Career Episode 3: CE 3.2.1,
CE 3.2.2
PE1.6 Understanding of the
scope, principles, norms,
accountabilities and bounds of
contemporary engineering
practice in the specific
discipline.
I) I have analysis the
traditional bulky profiling
machines for evaluating the
functionality and operations
used.
II) I have further developed
the probabilistic and
mathematical reasoning for
examining the variation of the
Career Episode 1: CE 1.2.3,
CE 1.3.1, CE 1.3.4 and CE
1.3.2
Career Episode 2: CE 2.2.3,
CE 2.3.1 and CE 2.3.2
Career Episode 3: CE 3.2.3,
CE 3.3.1 and CE 3.3.2
4
various polynomial class.
III) I have developed Boolean
matrix and assigned the signal
with 1 value if it’s greater than
threshold.
PE 2 ENGINEERING APPLICATION ABILITY
PE2.1 Application of
established engineering
methods to complex
engineering problem solving.
I) I have implemented Kalman
Filter for calculating the
optimum value and measures.
II) I have polished the digital
signal processing and
implemented some basic but
very effective filters and
regression techniques.
III) I have conducted 10 kHz
sweeps and increased the
value from 915 MHz to 928
MHz within the required ISM
band.
Career Episode 1: CE 1.3.4
Career Episode 2: CE 2.3.3,
CE 2.3.4 and CE 2.4.1, CE
2.4.2
Career Episode 3: CE 3.3.1,
CE 3.3.2 and CE 3.4.2
PE2.2 Fluent application of
engineering techniques, tools
and resources.
I) I have considered
component of Earth’s gravity
impacting the angle of
Career Episode 1: CE 1.3.3,
CE 1.3.2 and CE 1.3.1
5
III) I have developed Boolean
matrix and assigned the signal
with 1 value if it’s greater than
threshold.
PE 2 ENGINEERING APPLICATION ABILITY
PE2.1 Application of
established engineering
methods to complex
engineering problem solving.
I) I have implemented Kalman
Filter for calculating the
optimum value and measures.
II) I have polished the digital
signal processing and
implemented some basic but
very effective filters and
regression techniques.
III) I have conducted 10 kHz
sweeps and increased the
value from 915 MHz to 928
MHz within the required ISM
band.
Career Episode 1: CE 1.3.4
Career Episode 2: CE 2.3.3,
CE 2.3.4 and CE 2.4.1, CE
2.4.2
Career Episode 3: CE 3.3.1,
CE 3.3.2 and CE 3.4.2
PE2.2 Fluent application of
engineering techniques, tools
and resources.
I) I have considered
component of Earth’s gravity
impacting the angle of
Career Episode 1: CE 1.3.3,
CE 1.3.2 and CE 1.3.1
5
acceleration.
II) I have used K-band
rectangular waveguide is used
as a rectangular waveguide in
the above equation.
III) I have used LoRaWAN
for permitting both uploading
and downloading links in the
IoT devices.
Career Episode 2: CE 2.3.1,
CE 2.3.2 and CE 2.3.3
Career Episode 3: CE 3.3.1,
CE 3.3.2 and CE 3.3.3
PE2.3 Application of
systematic engineering
synthesis and design
processes.
I) I have used IMU sensor for
determining the gravity
components. I have further
obtained the Fourier series of
signal from the accelerometer.
II) I have utilized my
knowledge and applied them
efficiently for the probabilistic
reasoning, polynomial
classifier, neural networking
and various mathematical
models.
Career Episode 1: CE 1.2.3,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.3.3
and CE 2.3.4
Career Episode 3: CE 3.2.2
6
II) I have used K-band
rectangular waveguide is used
as a rectangular waveguide in
the above equation.
III) I have used LoRaWAN
for permitting both uploading
and downloading links in the
IoT devices.
Career Episode 2: CE 2.3.1,
CE 2.3.2 and CE 2.3.3
Career Episode 3: CE 3.3.1,
CE 3.3.2 and CE 3.3.3
PE2.3 Application of
systematic engineering
synthesis and design
processes.
I) I have used IMU sensor for
determining the gravity
components. I have further
obtained the Fourier series of
signal from the accelerometer.
II) I have utilized my
knowledge and applied them
efficiently for the probabilistic
reasoning, polynomial
classifier, neural networking
and various mathematical
models.
Career Episode 1: CE 1.2.3,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.3.3
and CE 2.3.4
Career Episode 3: CE 3.2.2
6
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III) I had to classify the
spectrum density of
population.
PE2.4 Application of
systematic approaches to the
conduct and management of
engineering projects.
I) I have further integrated a
low pass filter for
decomposing the system and
obtaining the gravity
components using pitch (y
axis) and roll (x axis)
components respectively.
II) I have recorded the
phenomena of overshooting
that has occurred at the crack.
This has allowed me to keep
the varying crack.
III) I have therefore applied
ALOHA model for accessing
the current protocol scenario.
Career Episode 1: CE 1.3.1
and CE 1.3.2
Career Episode 2: CE 2.2.3,
CE 2.3.1, CE 2.3.2 and CE
2.3.3
Career Episode 3: CE 3.3.1
and CE 3.3.2
PE 3 PROFESSIONAL AND PERSONAL ATTRIBUTES
PE3.1 Ethical conduct and
professional Accountability.
I) I have individually handled
design, planning and
implementation of Portable
Career Episode 1: CE 1.2.3,
CE 1.3.3 and CE 1.4.1
Career Episode 2: CE 2.2.3,
7
spectrum density of
population.
PE2.4 Application of
systematic approaches to the
conduct and management of
engineering projects.
I) I have further integrated a
low pass filter for
decomposing the system and
obtaining the gravity
components using pitch (y
axis) and roll (x axis)
components respectively.
II) I have recorded the
phenomena of overshooting
that has occurred at the crack.
This has allowed me to keep
the varying crack.
III) I have therefore applied
ALOHA model for accessing
the current protocol scenario.
Career Episode 1: CE 1.3.1
and CE 1.3.2
Career Episode 2: CE 2.2.3,
CE 2.3.1, CE 2.3.2 and CE
2.3.3
Career Episode 3: CE 3.3.1
and CE 3.3.2
PE 3 PROFESSIONAL AND PERSONAL ATTRIBUTES
PE3.1 Ethical conduct and
professional Accountability.
I) I have individually handled
design, planning and
implementation of Portable
Career Episode 1: CE 1.2.3,
CE 1.3.3 and CE 1.4.1
Career Episode 2: CE 2.2.3,
7
Electromagnetic Surface
Profiling System.
II) I have also plotted the
required error in
corresponding to the y axis
and x axis and plotted the
value in micrometers.
III) I have used a laptop and
automated script for obtaining
the data through Ethernet
interface.
CE 2.3.5 and CE 2.4.2
Career Episode 3: CE 3.3.3,
CE 3.4
PE3.2 Effective oral and
written communication in
professional and lay domains.
I) I have maintained proper
documentation of each of the
test and processes conducted
for the Surface Profiling
System.
II) I have utilized
communication matrix and
allocated the tasks properly
among the students for
encouraging team work within
Career Episode 1: CE 1.2.3,
CE 1.3.3 and CE 1.4.1
Career Episode 2: CE 2.2.3,
CE 2.3.5 and CE 2.4.2
Career Episode 3: CE 3.3.3,
CE 3.4
8
Profiling System.
II) I have also plotted the
required error in
corresponding to the y axis
and x axis and plotted the
value in micrometers.
III) I have used a laptop and
automated script for obtaining
the data through Ethernet
interface.
CE 2.3.5 and CE 2.4.2
Career Episode 3: CE 3.3.3,
CE 3.4
PE3.2 Effective oral and
written communication in
professional and lay domains.
I) I have maintained proper
documentation of each of the
test and processes conducted
for the Surface Profiling
System.
II) I have utilized
communication matrix and
allocated the tasks properly
among the students for
encouraging team work within
Career Episode 1: CE 1.2.3,
CE 1.3.3 and CE 1.4.1
Career Episode 2: CE 2.2.3,
CE 2.3.5 and CE 2.4.2
Career Episode 3: CE 3.3.3,
CE 3.4
8
the project.
III) I have allocated the
frequencies over the domain
for analyzing the spectral.
PE3.3 Creative, innovative
and pro-active demeanor.
I) I have altered the program
specification for enabling the
specific patter of motion as
required for the Profiling
System.
II) In order to develop creative
work, I have created matrix in
the training phase of the
project.
III) I have used the ALOHA
system for transmitting the
packets regardless the
evaluation for channel
detection.
Career Episode 1: CE 1.3, CE
1.4 and CE 1.4.2
Career Episode 2: CE 2.3, CE
2.4, CE 2.2.5 and CE 2.4.2
Career Episode 3: CE 3.2, CE
3.3
PE3.4 Professional use and
management of information.
I) I have maintained the
scanner motor with speed of
200 rpm and ensured initial
position for maintaining the
Career Episode 1: CE 1.2.3,
CE 1.2.5, CE 1.4.2
9
III) I have allocated the
frequencies over the domain
for analyzing the spectral.
PE3.3 Creative, innovative
and pro-active demeanor.
I) I have altered the program
specification for enabling the
specific patter of motion as
required for the Profiling
System.
II) In order to develop creative
work, I have created matrix in
the training phase of the
project.
III) I have used the ALOHA
system for transmitting the
packets regardless the
evaluation for channel
detection.
Career Episode 1: CE 1.3, CE
1.4 and CE 1.4.2
Career Episode 2: CE 2.3, CE
2.4, CE 2.2.5 and CE 2.4.2
Career Episode 3: CE 3.2, CE
3.3
PE3.4 Professional use and
management of information.
I) I have maintained the
scanner motor with speed of
200 rpm and ensured initial
position for maintaining the
Career Episode 1: CE 1.2.3,
CE 1.2.5, CE 1.4.2
9
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measurement consistency.
II) I have utilized polymer
vector classifier for evaluating
the width of the crack.
III) I was able to develop the
appropriate experiment
environment for analyzing the
spectrum occupancy of the
IoT devices.
Career Episode 2: CE 2.2.3,
CE 2.2.5, CE 2.4.2
Career Episode 3: CE 3.2.3,
CE 3.2.5, CE 3.4.2
PE3.5 Orderly management of
self and professional conduct.
I) I was successful in
acquiring precision and
accuracy in position
determination.
II) I have more responsibility
of distributing the work load
among the tea members based
on their engineering
knowledge.
III) I have used color for
representing the level of
power received in dBm.
Career Episode 1: CE 1.4.2,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.4.2,
CE 2.3.2, CE 2.3.3 and CE
2.3.4
Career Episode 3: CE 3.4.2,
CE 3.3.1 and CE 3.3.2
PE3.6 Effective team I) I was the sole members Career Episode 1: CE 1.4.1,
10
II) I have utilized polymer
vector classifier for evaluating
the width of the crack.
III) I was able to develop the
appropriate experiment
environment for analyzing the
spectrum occupancy of the
IoT devices.
Career Episode 2: CE 2.2.3,
CE 2.2.5, CE 2.4.2
Career Episode 3: CE 3.2.3,
CE 3.2.5, CE 3.4.2
PE3.5 Orderly management of
self and professional conduct.
I) I was successful in
acquiring precision and
accuracy in position
determination.
II) I have more responsibility
of distributing the work load
among the tea members based
on their engineering
knowledge.
III) I have used color for
representing the level of
power received in dBm.
Career Episode 1: CE 1.4.2,
CE 1.3.1 and CE 1.3.2
Career Episode 2: CE 2.4.2,
CE 2.3.2, CE 2.3.3 and CE
2.3.4
Career Episode 3: CE 3.4.2,
CE 3.3.1 and CE 3.3.2
PE3.6 Effective team I) I was the sole members Career Episode 1: CE 1.4.1,
10
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