3. Table of Contents
Problem Statement
Objectives
Block Diagram
Literature Review
Part 1
Part 2
Part 3
Part 4
Process Flow/ Flowchart
Simulations/ Computer-aided Design
Part 5
Part 6
Hardware Design
Part 7
Timeline
Part 8
3
Add Relevant Picture
Department of Electrical Engineering, B-SEAS
Goals: Next Presentation
Part 9
4. Problem Statement
Mention Details: Base Paper(M. Mylrea et al, "Blockchain for smart grid resilience: Exchanging distributed energy at speed,
scale and security," 2017 Resilience Week (RWS).)
Reference Text: “A strong engineering foundation is critical as we make a
presentation platform accessible on all devices.”
4
Department of Electrical Engineering, B-SEAS
5. Objectives Template Slide 1
Text
Objective 1
Text
Objective 2
Text
Objective 3
Text
Objective 4
Department
of
Electrical
Engineering,
B-SEAS
5
6. Department of Electrical Engineering, B-SEAS
All we need is a set of fantastic layouts to show off
the collaboration feature. Coupled with engaging
marketing efforts, we can deliver collaboration
feature in the hands of our users
at the soonest time possible.
Reference Text:
Foundational
engineering support
Objectives Template Slide 2
6
All we need is a set of fantastic layouts to show off
the collaboration feature. Coupled with engaging
marketing efforts, we can deliver collaboration
feature in the hands of our users
at the soonest time possible.
Reference Text:
Foundational
engineering support.
7. Build a product accessible on all devices
Launch industry's first collaboration feature
Grow a community of empowered presenters
Objectives Template Slide 3
7
Add Relevant Picture
Department
of
Electrical
Engineering,
B-SEAS
9. First Quarter Goal:
Mobile app support
1
Second Quarter Goal:
Mobile browser support
2
Third Quarter Goal:
Tablet computer support
3
Fourth Quarter Goal:
Offline support
4
Our roadmap is marked by four small goals we need to achieve every three months.
Process Flow/Flowchart Template Slide 1
9
Department of Electrical Engineering, B-SEAS
10. People — employees,
students, educators, life
coaches — are limited in
the way they present
information.
As the world becomes
increasingly mobile, so
should the different ways
we can make engaging,
powerful presentations.
A strong engineering
foundation is critical as
we make a presentation
platform accessible on all
devices.
Just imagine the ease of
creating and sharing a
presentation from any
device. A goal this huge
requires robust backend
support.
With mobile flexibility, we
can expect to grow our
users by 200%.
At present, 85% of our
users reliant on desktop
wish they could make
and show presentations
using their devices.
By the middle of the year,
our number of users
should increase by
250,000.
This key metric is based
on the behavior that
users satisfied with the
product are likely to
recruit 2.5 new users.
Scope of work might
change mid way but that
is okay.
Changes are inevitable,
and this could potentially
push back target dates of
our goals.
Our roadmap is marked by four small goals we need to achieve every three months.
Process Flow/Flowchart Template Slide 2
10
Department of Electrical Engineering, B-SEAS
12. System
1. Blockchain for smart
grid resilience [16]
2. Transaction mode for
Blockchain based micro
grids[23]
3. Consortium based
energy trading[18]
Techniques Goal(s) Observation(s)
Smart Meters
Smart Contract
Public Blockchain
Smart Contract
Blockchain
Smart Contract
Consortium Blockchain
Proof of Stake
Smart Meters
To secure energy
transactions of traders
To ensure privacy of EV
transactions in a grid
network
To secure energy
transactions in a Smart
Grid
(+ve): Fast energy transactions processing
(-ve): Limited scale security solution. Focused on Smart
Meters/AMI only.
(+ve): A dynamic demand response scheme for EVs.
(-ve): Lacks practical implementation of privacy
protection in transactions; not scalable
(+ve): Dynamic selection of smart contracts
(-ve): Focused on trading performance, lacks evaluation
of security measures and communication overheads
Literature Review
12
1. M. Mylrea et al, "Blockchain for smart grid resilience: Exchanging distributed energy at speed, scale and security," 2017 Resilience Week (RWS).
2. Wang, et al. "A novel electricity transaction mode of microgrids based on blockchain and continuous double auction." Energies 10.12 (2017)
3. Zheng et al. "Smart Grid Power Trading Based on Consortium Blockchain in Internet of Things." International Conference on Algorithms, 2018.
13. Department of Electrical Engineering, B-SEAS
Add a timeline chart here or a
gantt chart.
Current Stage
Timeline
13
Add Timeline Here
14. Department of Electrical Engineering, B-SEAS
This is our plan for the Next Presentation
Goals: Next Presentation
Goal 1 Goal 2 Goal 3 Goal 4 Goal 5
Reference Text: With the
ability to collaborate in
real-time, teams can
make incredible
presentations no matter
where they are in the
world.
Reference Text: All we
need is a set of fantastic
layouts to show off the
collaboration feature.
Coupled with engaging
marketing efforts, we can
deliver collaboration
feature in the hands of
our users at the soonest
time possible.
Reference Text: By
launching the
collaboration feature,
we're expecting a rise in
revenue by 250%.
Reference Text: This is
based on the trend that
satisfied users are likely
to refer us to 5 to 7 of
their friends or people
they work with.
Reference Text: If ever
the application takes
longer than expected,
this could push back our
market release slated at
the end of the second
quarter of this year.
14
15. Student 1 Student 2 Student 3
Thank you: Question &Answer Session
Add a
Formal
Picture
Add a
Formal
Picture
Add a
Formal
Picture
Department of Electrical Engineering, B-SEAS