State Transition Diagram for Oral B Braun Electric Toothbrush
Added on 2023-01-23
14 Pages1724 Words33 Views
Name of the Student
Assignment 1
State transition diagram
Name of the Instructor
Date
Assignment 1
State transition diagram
Name of the Instructor
Date
Introduction:
State transition diagram is a diagrammatic representation of the states of machine
between which transitions occurs corresponding to specific conditions or inputs to the machine.
The states of machine are the stages in which the machine is operated. In this particular
experiment the state transition diagram is developed for the oral B Braun electric toothbrush. The
major functionalities (or typically the different brushing modes) of the electric toothbrush is
assumed as states of the machine and the transition between the states occur due to user input
signals which is converted into certain specific values functional signal by the SmartGuide
system (Yang et al. 2016). Now, for creating the state transition diagram MATLAB/Simulink is
used due to its ability to create attractive visualization of graphs and ability to do enormous
computations within small amount of time. In addition to this the Simulink model is created in
MATLAB as state transition matrix as an inbuilt model is available as a Simulink block (Rumpe
et al. 2015). Inside the Simulink block the different states of the toothbrush is defined and their
transition signals specified by hypothetical values. The different functionalities of the toothbrush
is defined below.
Various Functionality of the toothbrush 5000 & SmartGuide Interface:
The mostly important functionalities of the oral B Braun electric toothbrush is given below.
The toothbrush’s power supply is the rechargeable battery which keeps the charge for a
long time of typically 1-2 days with normal brushing frequency of 2 times in a week. The
charging of the toothbrush is very simple and easy to use as it only requires to plug in the
plug of the toothbrush in any 3-pin outlet.
State transition diagram is a diagrammatic representation of the states of machine
between which transitions occurs corresponding to specific conditions or inputs to the machine.
The states of machine are the stages in which the machine is operated. In this particular
experiment the state transition diagram is developed for the oral B Braun electric toothbrush. The
major functionalities (or typically the different brushing modes) of the electric toothbrush is
assumed as states of the machine and the transition between the states occur due to user input
signals which is converted into certain specific values functional signal by the SmartGuide
system (Yang et al. 2016). Now, for creating the state transition diagram MATLAB/Simulink is
used due to its ability to create attractive visualization of graphs and ability to do enormous
computations within small amount of time. In addition to this the Simulink model is created in
MATLAB as state transition matrix as an inbuilt model is available as a Simulink block (Rumpe
et al. 2015). Inside the Simulink block the different states of the toothbrush is defined and their
transition signals specified by hypothetical values. The different functionalities of the toothbrush
is defined below.
Various Functionality of the toothbrush 5000 & SmartGuide Interface:
The mostly important functionalities of the oral B Braun electric toothbrush is given below.
The toothbrush’s power supply is the rechargeable battery which keeps the charge for a
long time of typically 1-2 days with normal brushing frequency of 2 times in a week. The
charging of the toothbrush is very simple and easy to use as it only requires to plug in the
plug of the toothbrush in any 3-pin outlet.
The two timer modes that are offered inside oral B Braun electric toothbrush are the
professional timer mode and 2-minuite timer mode. In the professional timer mode each
of the brushing mode is operated for a time interval of 30 seconds except for the daily
clean and deep clean mode which are operated for about 45 seconds in default. The user
can change the time interval for each brushing modes in professional mode. Additionally,
a green light flashes with a shuttering sound after each mode is over. This is common for
2-minute timer mode also. Instead, the user does not have the option to change the
timings of each of the mode.
The live brushing experience can be viewed from any machine (mac / linux or windows)
by the user as the live feedback while brushing can be sent to the machine by the
Bluetooth pairing of the toothbrush with machine. However, the SmartGuide software
need to be installed in the viewing machine to oversee the live feedback.
The brushing modes which are modelled as states of machine are daily clean mode, deep
clean mode, whitening mode, massage mode, tongue cleaning mode and sensitive mode
respectively.
Inside the toothbrush there is a pressure sensor built-in in the toothbrush. The function of
the pressure sensor is to obtain the pressure applied by the user at the time of brushing
and then the mechanical pressure is converted to electric signals by piezoelectric
transducers and SmartGuide software increases magnitude of the signal according to the
applied pressure (Zou et al. 2015). Now, when the pressure is over the specified limit
then the toothbrush is changed to sensitive mode when the operating mode is daily clean
or deep clean mode. The over-pressure is displayed in the SmartScreen and indicated in
the toothbrush with warning sound and red light.
professional timer mode and 2-minuite timer mode. In the professional timer mode each
of the brushing mode is operated for a time interval of 30 seconds except for the daily
clean and deep clean mode which are operated for about 45 seconds in default. The user
can change the time interval for each brushing modes in professional mode. Additionally,
a green light flashes with a shuttering sound after each mode is over. This is common for
2-minute timer mode also. Instead, the user does not have the option to change the
timings of each of the mode.
The live brushing experience can be viewed from any machine (mac / linux or windows)
by the user as the live feedback while brushing can be sent to the machine by the
Bluetooth pairing of the toothbrush with machine. However, the SmartGuide software
need to be installed in the viewing machine to oversee the live feedback.
The brushing modes which are modelled as states of machine are daily clean mode, deep
clean mode, whitening mode, massage mode, tongue cleaning mode and sensitive mode
respectively.
Inside the toothbrush there is a pressure sensor built-in in the toothbrush. The function of
the pressure sensor is to obtain the pressure applied by the user at the time of brushing
and then the mechanical pressure is converted to electric signals by piezoelectric
transducers and SmartGuide software increases magnitude of the signal according to the
applied pressure (Zou et al. 2015). Now, when the pressure is over the specified limit
then the toothbrush is changed to sensitive mode when the operating mode is daily clean
or deep clean mode. The over-pressure is displayed in the SmartScreen and indicated in
the toothbrush with warning sound and red light.
Description of the state transition diagram:
The primary delay given to toothbrush for switching from OFF state to ON state in 2
seconds and this function is added to electrically activate each and every components inside the
electric toothbrush. When the toothbrush goes to ON state then the user can selectively take any
state or can choose any timer mode.
Now, the primary brushing modes of the machine are the states of the machine as considered in
this assignment. Additionally, the ON, OFF and Wait time are also considered as extra states of
the machine. Each of the states are represented as a signal y in MATLAB for testing the system.
Also, the input signals converted into specified valued signals by SmartGuide software and this
is represented using the signal u with specific values responsible for state transition (Tanaka et
al. 2017). There is another signal which is the pressure signal x which assumes the value 1 when
the pressure is over the specified limit in daily clean mode or deep clean mode and assumes the
value 0 when the pressure is low (Bartocci et al. 2018). All values of the signal are assumed to be
discrete values. If the power supply from the rechargeable battery fall below minimum excitation
limit for staying in toothbrush circuit in excited stage, the toothbrush switches to OFF state and
this is represented here as value of user input signal u<=0. The description of states and their
transition conditions are represented in following table.
State Name State transition signal Signal indicating state of
the machine
Whitening mode u=4 y=5
The primary delay given to toothbrush for switching from OFF state to ON state in 2
seconds and this function is added to electrically activate each and every components inside the
electric toothbrush. When the toothbrush goes to ON state then the user can selectively take any
state or can choose any timer mode.
Now, the primary brushing modes of the machine are the states of the machine as considered in
this assignment. Additionally, the ON, OFF and Wait time are also considered as extra states of
the machine. Each of the states are represented as a signal y in MATLAB for testing the system.
Also, the input signals converted into specified valued signals by SmartGuide software and this
is represented using the signal u with specific values responsible for state transition (Tanaka et
al. 2017). There is another signal which is the pressure signal x which assumes the value 1 when
the pressure is over the specified limit in daily clean mode or deep clean mode and assumes the
value 0 when the pressure is low (Bartocci et al. 2018). All values of the signal are assumed to be
discrete values. If the power supply from the rechargeable battery fall below minimum excitation
limit for staying in toothbrush circuit in excited stage, the toothbrush switches to OFF state and
this is represented here as value of user input signal u<=0. The description of states and their
transition conditions are represented in following table.
State Name State transition signal Signal indicating state of
the machine
Whitening mode u=4 y=5
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