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Transcript

10
CT

Robotics
Sensing
QUARTER

Week 1 1
Sir Bernard
Robot sensing technology has

Sensing
been an evolving research field

Robotics
involving a strong interdisciplinary
effort from researchers in different
fields, namely, electronics,
mechanics, material science,
measurement and control, signal
processing, bioengineering and
so forth.
 Sensing
Robotics
Robotic sensing is the subpart of
robotics science intended to give
the robots sensing capabilities
so that the robots are more
human-like
Robotic sensing mainly gives the

Sensing
robots the ability to:

Robotics
See
touch
hear and
move and it uses algorithms
that require the environment
feedback.
 Sensing
Robotics
Robot sensors are used to
estimate the robot’s condition
and environment.
 Sensing
Robotics
Robot sensors are used to
estimate the robot’s condition
and environment.
Robotics
Sensing
The sensors can measure

Sensing
the physical orientation and

Robotics
the coordinates of the object in
the space,
the heat, the wavelength of
infrared or ultra violet rays
 the temperature,

Sensing
the magnitude and the direction.

Robotics
the presence and concentration
of chemical or reactants
the presence, color and intensity
of light,
the presence, frequency and
intensity of sound
 Sensors are generally classified

Sensing
Robotics
into two groups:

Internal sensors
External sensors
 Internal Sensors

Sensing
Robotics
Internal sensors such as its
position sensor, velocity sensor,
acceleration sensors, motor
torque sensor, etc. obtain the
information about the robot itself.
 External Sensors

Sensing
External sensors such as cameras,

Robotics
range sensors (IR sensor, laser
range finder, and ultrasonic sensor)
contact and proximity sensors
(photodiode, IR detector, RFID,
touch, etc.) and force sensors gather
the information in the surrounding
environment.
 is a sensor that facilitates

POSITION
Sensor
measurement of mechanical
position. A position sensor may
indicate absolute position
(location) or relative position
(displacement), in terms of linear
travel, rotational angle, or three-
dimensional space.
 Capacitive displacement sensor

POSITION

Sensor
Eddy-current sensor
Hall effect sensor
Inductive sensor
Laser Doppler vibrometer
Linear variable differential
transformer
 Photodiode array

POSITION
Piezo-electric transducer (piezo-

Sensor
electric)
Potentiometer
Proximity sensor
String potentiometer
Ultrasonic sensor
 Photodiode array

POSITION
Piezo-electric transducer (piezo-

Sensor
electric)
Potentiometer
Proximity sensor
String potentiometer
Ultrasonic sensor
 & Capabilities
Properties
Sensitivity
change of output and change
of input
 & Capabilities
Properties
Linearity
(constancy of output and
input)
 & Capabilities
Properties
Response Time
(time required for a change
in input to force a change in
the output)
 & Capabilities
Properties
Measurement/Dynamic range
(difference between minimum
and maximum)
 & Capabilities
Properties
Accuracy
(difference between measured
and actual)
 & Capabilities
Properties
Repeatability
(difference between repeated
measures)
 & Capabilities
Properties
Resolution
(smallest observable increment)
 & Capabilities
Properties
Bandwidth
(result of high resolution or
cycle time)
1. LIGHT SENSOR

of Sensors
Examples
A light sensor detects light and
creates a difference in voltage.
2. SOUND SENSOR

of Sensors
Examples
Sound sensors are generally a
microphone used to detect the
equivalent voltage of sound and
return.
3. PROXIMITY SENSOR

of Sensors
Examples
The nearby object can be
detected by a proximity sensor
without physical contact.
Infrared (IR) transceiver:

of Sensors
Examples
An IR LED transmits an IR light
that reflects the light captured
by an IR recipient when an
obstacle is found.
Ultrasound Sensor:

of Sensors
Examples
These sensors generate sound
waves at high frequencies; the
received echo indicates an
object is interrupted. Ultrasound
sensors can also be used for
distance measurement.
Photoresistor:

of Sensors
Examples
Photoresistor is a light sensor, but it
can still be utilized as a sensor of
proximity. If an object approaches
the sensor, the number of light
changes, which changes the
resistance of the Photoresistor. This
is detectable and processable.
4. TACTILE SENSORS

of Sensors
Examples
Tactile sensor is a device
specifying an object’s contact.
Touch Sensor or Contact

of Sensors
Examples
Sensor:
Touch sensor is capable of
sensing and detecting
sensor and object touch.
Force Sensor:

of Sensors
Examples
Force sensor is included in
calculating the forces of several
functions, such as machine
loading and unloading, material
handling, and so on, performed
by a robot.
5. TEMPERATURE SENSOR

of Sensors
Examples
Temperature sensors are used
to detect the surrounding
temperature change.
6. NAVIGATION AND

of Sensors
Examples
POSITIONING SENSOR
6. NAVIGATION AND

of Sensors
Examples
POSITIONING SENSOR

Positioning sensors are used to
approximate the position of a robot.
GPS
6. NAVIGATION AND

of Sensors
Examples
POSITIONING SENSOR

Digital Magnetic Compass
provides directional measurements
using the Earth’s magnetic field that
guides your robot to reach its
destination.
6. NAVIGATION AND

of Sensors
Examples
POSITIONING SENSOR

Location
refers to the task of automatically
determining a robot’s location based on
external elements such as natural
artificially placed landmarks such as
doors, windows, walls, etc.
7. ACCELERATION SENSOR

of Sensors
Examples
An accelerometer is a device for
measuring acceleration and tilt.
a) Static Force

of Sensors
Examples
the frictional force between any two
objects. By measuring this gravity,
we can determine how much robot
tilts. This measurement is useful in
balancing robot or determining
whether a robot is driving on a flat
or uphill surface.
b) Dynamic Force

of Sensors
Examples
the acceleration required to
move an object. Measuring
dynamic force using an
accelerometer tells the speed/
speed at which a robot moves.
Quiz Bee (GA): Polygon

Robotics Sensing
Number 1
Identification and
Properties
Robot sensing technology has been an
evolving research field involving a
strong interdisciplinary effort from
reserachers in different fields, namely,
electronics, mechanics, material
science, measurement andcontrol,
signal processing, bioengineering and
so forth.
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
Each group will be given answer
board. One at a time, a member will
answer the question within 5
seconds.
Each correct answer is equal to 1
point. The group who will get the
highest score will be the winner.
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
1. What do you call a
polygon with 6 sides?

Hexagon
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
2.What is the sum of the
interior angles of an octagon?

1440°
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
3.A polygon has 10 sides.
What is it called?

Decagon
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
4.What is a polygon called if
all its sides and angles are
equal?
Regular Polygon
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
5.What is the measure of
each interior angle of a
regular hexagon?

120°
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
6.What do you call a polygon
with 8 sides?

Octagon
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
7.What do you call a polygon
with 5 sides?

Pentagon
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
8.A polygon has 4 sides with
all sides and angles are equal
are called ____

Square
Quiz Bee (GA): Polygon
Identification and

Number 1
Properties

Activity
9.What do you call a polygon
with 7 sides?

Heptagon
 Drawing Polygons (By Pair)

Number 2 Materials Needed:
Activity

Bond paper
Pencil
Ruler
Compass
Protractor
 Drawing
01. Regular Pentagon
 Drawing
01. Regular Pentagon
 Drawing
01. Regular Pentagon
 Drawing
01. Regular Hexagon

60°
 Drawing
01. Regular Hexagon
 Drawing
01. Regular Octagon
 Drawing
01. Regular Octagon
Draw that Polygon!

Number 3
(Individual)
Draw the given polygon with accurate measure

Activity
of sides and angles. CHOOSE ANY TWO
1. A triangle with sides 4cm, 5cm, and 6cm
2. A triangle XYZ, with XY is 6cm and angle
XYZ is 60 0

3. A quadrilateral ABCD given that AB=5cm,
BC=4cm, CD=4.5cm, DA=3cm and diagonal
AC =6cm.
4. A quadrilateral ABCD given that AB=5cm,
BC=4.5cm, CD=4cm, Angle B=60 and Angle
0

C=1350
Questions:
01.

How did you find the activity?
What challenges did you encounter in
completing the task?
How do you draw triangles given the length of
their sides?
How do you draw quadrilaterals given 4 sides
and 1 diagonal?
My
01. Takeaways..

Can you think of real-life examples where
understanding how to construct polygons,
triangles, or quadrilaterals would be beneficial?

What are some strategies for ensuring accuracy
when measuring angles and side lengths in
geometric constructions?
Reflect
01. on this…

Reflect on any challenges you faced during the
drawing process and how you addressed them
during the lesson of Regular Polygons.
 Exercise
01. No. 3
I. Fill in the blank with the correct word to make the statement true.

1. __________
Polygons are closed plane figures that are formed by straight line
segments that meet only at their endpoints.
2. Polygons are classified according to the number of __________.
sides
Regular P. are polygons with all of its sides and angles equal.
3. __________
4. __________
Squares are quadrilaterals with 4 right angles & have all sides equal.
Pentagon is a five-sided polygon with equal sides and equal angles.
5. __________
6. Irregular
__________ are polygons that have non-congruent sides.
7. Octagon
__________ is an eight-sided polygon with unequal sides.
P.
8. Equilatera
__________ is a three-sided polygon with equal sides.
l Triangle
 Exercise
01. No. 3
II. Use the polygon below in answering the ff questions.

1. If side BC = 10 cm, how long is side AE? 10 cm
2. What is the measure of ∠CBA? 108°
3. What is the sum of the measures of
∠CBA and ∠CDE?108° + 108° =
4. What is the sum 216°
of the interior angles of
the regular pentagon ABCDE? 540°
Every accomplishment
starts with the
decision to try”
–Unknown