A revolution is going on at the Edge of the Network.
Why Edge is important?
How Edge Computing is shaping the way we do IoT, AR/VR, Big Data, Machine Learning and Analytics applications.
What are the important problems and who’s problem is this?
What solutions Industry is looking into right now?
This review of the "Industry report by SDxCentral" summarizes what is going on in the Industry.
Edge computing is a distributed computing paradigm that brings computation and data storage closer to the sources of data. This ppt contains everything about Edge Computing Starting from its Definition, needs, terms involved to its merits, demerits and application use cases
Walking through the fog (computing) - Keynote talk at Italian Networking Work...FBK CREATE-NET
"Walking through the fog (computing): trends, use-cases and open issues"
Despite its huge success in many IT-enabled application scenarios, cloud computing has demonstrated some intrinsic limitations that may severely limit its adoption in several contexts where constraints like e.g. preserving data locally, ensuring real-time reactivity or guaranteeing operation continuity despite lack of Internet connectivity (or a combination of them) are mandatory. These distinguishing requirements fostered an increased interest toward computing approaches that inherit the flexibility and adaptability of the cloud paradigm, while acting in proximity of a specific scenario. As a consequence, the emergence of this “proximity computing” approach has exploded into a plethora of architectural solutions (and novel terms) like fog computing, edge computing, dew computing, mist computing but also cloudlets, mobile cloud computing, mobile edge computing (and probably few others I may not be aware of…). The talk will initially make an attempt to introduce some clarity among these “foggy” definitions by proposing a taxonomy whose aim is to help identifying their peculiarities as well as their overlaps. Afterwards, the most important components of a generalized proximity computing architecture will be explained, followed by the description of few research works and use cases investigated within our Center and based on this emerging paradigm. An overview of open issues and interesting research directions will conclude the talk.
What Is Edge Computing? Everything You Need to KnowDigital Carbon
Edge computing is transforming the way we process and utilize data in the era of 5G. This groundbreaking technology is redefining the rules for businesses by bringing computing resources closer to the data source, reducing latency, and enabling real-time decision-making.
A revolution is going on at the Edge of the Network.
Why Edge is important?
How Edge Computing is shaping the way we do IoT, AR/VR, Big Data, Machine Learning and Analytics applications.
What are the important problems and who’s problem is this?
What solutions Industry is looking into right now?
This review of the "Industry report by SDxCentral" summarizes what is going on in the Industry.
Edge computing is a distributed computing paradigm that brings computation and data storage closer to the sources of data. This ppt contains everything about Edge Computing Starting from its Definition, needs, terms involved to its merits, demerits and application use cases
Walking through the fog (computing) - Keynote talk at Italian Networking Work...FBK CREATE-NET
"Walking through the fog (computing): trends, use-cases and open issues"
Despite its huge success in many IT-enabled application scenarios, cloud computing has demonstrated some intrinsic limitations that may severely limit its adoption in several contexts where constraints like e.g. preserving data locally, ensuring real-time reactivity or guaranteeing operation continuity despite lack of Internet connectivity (or a combination of them) are mandatory. These distinguishing requirements fostered an increased interest toward computing approaches that inherit the flexibility and adaptability of the cloud paradigm, while acting in proximity of a specific scenario. As a consequence, the emergence of this “proximity computing” approach has exploded into a plethora of architectural solutions (and novel terms) like fog computing, edge computing, dew computing, mist computing but also cloudlets, mobile cloud computing, mobile edge computing (and probably few others I may not be aware of…). The talk will initially make an attempt to introduce some clarity among these “foggy” definitions by proposing a taxonomy whose aim is to help identifying their peculiarities as well as their overlaps. Afterwards, the most important components of a generalized proximity computing architecture will be explained, followed by the description of few research works and use cases investigated within our Center and based on this emerging paradigm. An overview of open issues and interesting research directions will conclude the talk.
What Is Edge Computing? Everything You Need to KnowDigital Carbon
Edge computing is transforming the way we process and utilize data in the era of 5G. This groundbreaking technology is redefining the rules for businesses by bringing computing resources closer to the data source, reducing latency, and enabling real-time decision-making.
Technology Introduction Series brings to you tutorials from experts and organisations across the Telecom Industry.
In this video, Jim Morrish, Founding Partner of Transforma Insights provides a tutorial on Edge Computing. Transforma Insights is a leading research firm focused on the world of Digital Transformation (DX).
In this presentation, Jim covers the following topics:
Definitions of Edge Computing.
How and why Edge Computing is used.
Planning for deployment of Edge Computing.
Forecasts for Edge Computing.
All our #3G4G5G slides, videos, blogs and tutorials are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
6G and Beyond-5G Page: https://www.3g4g.co.uk/6G/
Free Training Videos: https://www.3g4g.co.uk/Training/
3G4G Website – https://www.3g4g.co.uk/
3G4G Blog – https://blog.3g4g.co.uk/
Telecoms Infrastructure Blog – https://www.telecomsinfrastructure.com/
Operator Watch Blog – https://www.operatorwatch.com/
Connectivity Technology Blog – https://www.connectivity.technology/
Free 5G Training – https://www.free5gtraining.com/
Free 6G Training – https://www.free6gtraining.com/
Here, we will show you about what is edge computing with its components; involving with different types of edge computing and its pros and cons with ease. This is unique content over the internet; after reading this content, you will fully understand about What is Edge Computing without getting any obstacle.
5G and edge computing - CORAL perspectiveRichard Scott
Charles Turyagyenda from InterDigital Europe Ltd presented an overview of the opportunities and technical aspects of 5G edge computing at the first of Digital Catapult Centre Brighton's 5G workshops. These workshops were designed to raised awareness of the opportunities and features of 5G within small digital businesses, as well as identifying potential use cases to be take forward to be explored within the National 5G testbed for digital businesses in Brighton.
We are inviting small digital businesses to get in contact to discuss how they might exploit the 5G testbed. If you are interested in how you might do so please email digicatbrighton@wiredsussex.com
Application developers are key to the success of an edge compute strategy. They are the backbone for any digital ecosystem and their requirements drive the platform architecture. Edge computing is no different. In this talk, we will focus on some key requirements, challenges and possible solutions for a developer centric architecture for multi-access edge computing including abstraction of the service provider’s network complexity, low footprint cloud native builder models, micro-services, hardware abstractions, intelligence layers and massive monitoring of application instances.
About the speaker: Shamik Mishra is currently Assistant Vice President (AVP), Technology and Innovation at Aricent. He is a practice leader for new product architectures. He has extensive experience and contributions in software development in cloud, wireless technologies, edge computing and platform software. His research interests are Network Function Virtualization (NFV), Cloud and edge computing and Machine Learning (ML). He has spoken in several conferences and his work is regularly covered in the media. Shamik has a bachelor’s and a master’s degree from Indian Institute of Technology (IIT) Kharagpur, India.
According to a new Gartner report1, “Around 10% of enterprise-generated data is created and processed outside a traditional centralized data center or cloud. By 2022, Gartner predicts this
figure will reach 75%”. In addition to hosting new 5G era services, the other major network operator driver for edge compute and edge clouds is deploying virtualized network infrastructure, replacing many dedicated hardware-based elements with virtual network functions (VNFs) running on general purpose edge compute. Even portions of access networks are being virtualized, and many of these functions need to be deployed close to end users. The combination of these infrastructure and applications drivers is a major reason that so much of 5G era network transformation resolves around edge cloud distribution.
FIWARE Global Summit - Building Production Grade IoT Platform Leveraging FIWAREFIWARE
Presentation by Parwinder Singh (Technical Specialist, NEC Technologies India Pvt Ltd.) and Satinder Jeet Singh (Group Project Manager, NEC Technologies India Pvt Ltd.)
FIWARE Global Summit
23-24 October 2019 - Berlin, Germany
The evolution of Internet of Things (IoT) brought about several challenges for the existing Hardware, Network and Application development. Some of these are handling real-time streaming and batch bigdata, real- time event handling, dynamic cluster resource allocation for computation, Wired and Wireless Network of Things etc. In order to combat these technicalities, many new technologies and strategies are being developed. Tiarrah Computing comes up with integration the concept of Cloud Computing, Fog Computing and Edge Computing. The main objectives of Tiarrah Computing are to decouple application deployment and achieve High Performance, Flexible Application Development, High Availability, Ease of Development, Ease of Maintenances etc. Tiarrah Computing focus on using the existing opensource technologies to overcome the challenges that evolve along with IoT. This paper gives you overview of the technologies and design your application as well as elaborate how to overcome most of existing challenge.
STEAM++ AN EXTENSIBLE END-TO-END FRAMEWORK FOR DEVELOPING IOT DATA PROCESSING...ijcsit
IoT applications usually rely on cloud computing services to perform data analysis such as filtering, aggregation, classification, pattern detection, and prediction. When applied to specific domains, the IoT needs to deal with unique constraints. Besides the hostile environment such as vibration and electricmagnetic interference, resulting in malfunction, noise, and data loss, industrial plants often have Internet access restricted or unavailable, forcing us to design stand-alone fog and edge computing solutions. In this context, we present STEAM++, a lightweight and extensible framework for real-time data stream processing and decision-making in the network edge, targeting hardware-limited devices, besides proposing a micro-benchmark methodology for assessing embedded IoT applications. In real-case experiments in a semiconductor industry, we processed an entire data flow, from values sensing, processing and analysing data, detecting relevant events, and finally, publishing results to a dashboard. On average, the application consumed less than 500kb RAM and 1.0% of CPU usage, processing up to 239 data packets per second and reducing the output data size to 14% of the input raw data size when notifying events.
Technology Introduction Series brings to you tutorials from experts and organisations across the Telecom Industry.
In this video, Jim Morrish, Founding Partner of Transforma Insights provides a tutorial on Edge Computing. Transforma Insights is a leading research firm focused on the world of Digital Transformation (DX).
In this presentation, Jim covers the following topics:
Definitions of Edge Computing.
How and why Edge Computing is used.
Planning for deployment of Edge Computing.
Forecasts for Edge Computing.
All our #3G4G5G slides, videos, blogs and tutorials are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
6G and Beyond-5G Page: https://www.3g4g.co.uk/6G/
Free Training Videos: https://www.3g4g.co.uk/Training/
3G4G Website – https://www.3g4g.co.uk/
3G4G Blog – https://blog.3g4g.co.uk/
Telecoms Infrastructure Blog – https://www.telecomsinfrastructure.com/
Operator Watch Blog – https://www.operatorwatch.com/
Connectivity Technology Blog – https://www.connectivity.technology/
Free 5G Training – https://www.free5gtraining.com/
Free 6G Training – https://www.free6gtraining.com/
Here, we will show you about what is edge computing with its components; involving with different types of edge computing and its pros and cons with ease. This is unique content over the internet; after reading this content, you will fully understand about What is Edge Computing without getting any obstacle.
5G and edge computing - CORAL perspectiveRichard Scott
Charles Turyagyenda from InterDigital Europe Ltd presented an overview of the opportunities and technical aspects of 5G edge computing at the first of Digital Catapult Centre Brighton's 5G workshops. These workshops were designed to raised awareness of the opportunities and features of 5G within small digital businesses, as well as identifying potential use cases to be take forward to be explored within the National 5G testbed for digital businesses in Brighton.
We are inviting small digital businesses to get in contact to discuss how they might exploit the 5G testbed. If you are interested in how you might do so please email digicatbrighton@wiredsussex.com
Application developers are key to the success of an edge compute strategy. They are the backbone for any digital ecosystem and their requirements drive the platform architecture. Edge computing is no different. In this talk, we will focus on some key requirements, challenges and possible solutions for a developer centric architecture for multi-access edge computing including abstraction of the service provider’s network complexity, low footprint cloud native builder models, micro-services, hardware abstractions, intelligence layers and massive monitoring of application instances.
About the speaker: Shamik Mishra is currently Assistant Vice President (AVP), Technology and Innovation at Aricent. He is a practice leader for new product architectures. He has extensive experience and contributions in software development in cloud, wireless technologies, edge computing and platform software. His research interests are Network Function Virtualization (NFV), Cloud and edge computing and Machine Learning (ML). He has spoken in several conferences and his work is regularly covered in the media. Shamik has a bachelor’s and a master’s degree from Indian Institute of Technology (IIT) Kharagpur, India.
According to a new Gartner report1, “Around 10% of enterprise-generated data is created and processed outside a traditional centralized data center or cloud. By 2022, Gartner predicts this
figure will reach 75%”. In addition to hosting new 5G era services, the other major network operator driver for edge compute and edge clouds is deploying virtualized network infrastructure, replacing many dedicated hardware-based elements with virtual network functions (VNFs) running on general purpose edge compute. Even portions of access networks are being virtualized, and many of these functions need to be deployed close to end users. The combination of these infrastructure and applications drivers is a major reason that so much of 5G era network transformation resolves around edge cloud distribution.
FIWARE Global Summit - Building Production Grade IoT Platform Leveraging FIWAREFIWARE
Presentation by Parwinder Singh (Technical Specialist, NEC Technologies India Pvt Ltd.) and Satinder Jeet Singh (Group Project Manager, NEC Technologies India Pvt Ltd.)
FIWARE Global Summit
23-24 October 2019 - Berlin, Germany
The evolution of Internet of Things (IoT) brought about several challenges for the existing Hardware, Network and Application development. Some of these are handling real-time streaming and batch bigdata, real- time event handling, dynamic cluster resource allocation for computation, Wired and Wireless Network of Things etc. In order to combat these technicalities, many new technologies and strategies are being developed. Tiarrah Computing comes up with integration the concept of Cloud Computing, Fog Computing and Edge Computing. The main objectives of Tiarrah Computing are to decouple application deployment and achieve High Performance, Flexible Application Development, High Availability, Ease of Development, Ease of Maintenances etc. Tiarrah Computing focus on using the existing opensource technologies to overcome the challenges that evolve along with IoT. This paper gives you overview of the technologies and design your application as well as elaborate how to overcome most of existing challenge.
STEAM++ AN EXTENSIBLE END-TO-END FRAMEWORK FOR DEVELOPING IOT DATA PROCESSING...ijcsit
IoT applications usually rely on cloud computing services to perform data analysis such as filtering, aggregation, classification, pattern detection, and prediction. When applied to specific domains, the IoT needs to deal with unique constraints. Besides the hostile environment such as vibration and electricmagnetic interference, resulting in malfunction, noise, and data loss, industrial plants often have Internet access restricted or unavailable, forcing us to design stand-alone fog and edge computing solutions. In this context, we present STEAM++, a lightweight and extensible framework for real-time data stream processing and decision-making in the network edge, targeting hardware-limited devices, besides proposing a micro-benchmark methodology for assessing embedded IoT applications. In real-case experiments in a semiconductor industry, we processed an entire data flow, from values sensing, processing and analysing data, detecting relevant events, and finally, publishing results to a dashboard. On average, the application consumed less than 500kb RAM and 1.0% of CPU usage, processing up to 239 data packets per second and reducing the output data size to 14% of the input raw data size when notifying events.
Similar to Edge Computing: NTT Offerings in Japan and Use Cases by Katsuhiro Ohki, NTT Limited (20)
This 7-second Brain Wave Ritual Attracts Money To You.!nirahealhty
Discover the power of a simple 7-second brain wave ritual that can attract wealth and abundance into your life. By tapping into specific brain frequencies, this technique helps you manifest financial success effortlessly. Ready to transform your financial future? Try this powerful ritual and start attracting money today!
1.Wireless Communication System_Wireless communication is a broad term that i...JeyaPerumal1
Wireless communication involves the transmission of information over a distance without the help of wires, cables or any other forms of electrical conductors.
Wireless communication is a broad term that incorporates all procedures and forms of connecting and communicating between two or more devices using a wireless signal through wireless communication technologies and devices.
Features of Wireless Communication
The evolution of wireless technology has brought many advancements with its effective features.
The transmitted distance can be anywhere between a few meters (for example, a television's remote control) and thousands of kilometers (for example, radio communication).
Wireless communication can be used for cellular telephony, wireless access to the internet, wireless home networking, and so on.
Multi-cluster Kubernetes Networking- Patterns, Projects and GuidelinesSanjeev Rampal
Talk presented at Kubernetes Community Day, New York, May 2024.
Technical summary of Multi-Cluster Kubernetes Networking architectures with focus on 4 key topics.
1) Key patterns for Multi-cluster architectures
2) Architectural comparison of several OSS/ CNCF projects to address these patterns
3) Evolution trends for the APIs of these projects
4) Some design recommendations & guidelines for adopting/ deploying these solutions.
ER(Entity Relationship) Diagram for online shopping - TAEHimani415946
https://bit.ly/3KACoyV
The ER diagram for the project is the foundation for the building of the database of the project. The properties, datatypes, and attributes are defined by the ER diagram.
2. Katsuhiro Ohki
Sales Engineer,
Global IP Network (AS2914)
NTT Limited
• Global IP Network (GIN, AS2914)
2014-2015: Customer Engineer in JP
2015-2016: Product Manager in HK
2016-2017: Capacity Planning Engineer in JP
2017-Today: Sales Engineer for ASEAN
Self Introduction
3. We are “Airport Terminal”
& Global Managed IT Service Enabler
Home
Airline
Company
Hotel
Train
station
Airport as a hub
Travel
agency
Bus/Taxi
terminal
Office
Online
services
(Ticket/Hotel/Restaurant/Route
searching..)
Airport: Data Center
Road, Railway, Airway: Transport (NW)
Tenants: Clients
Shop
Restaurant
Home
delivery
4. Edge to Cloud Fabric and Partner Ecosystem
4
• Establish interconnection point (GDCI) inside NW data center to actively exchange traffic (1)
• Provide portal to automate all processes and transactions in fabric and ecosystem (2)
• Develop edge capabilities to provide value added features to meet customer requirements (3)
• Create ecosystem by inviting major service providers to hub NW data center for promoting customer digital transformation (4)
Internet
DC NW
(DCI)
Customer
DC
Offices/factories/IoT
Azure
AWS
GCP
CDN
Next
OTT
CSP
IX
Hyper/ICP/XaaS
NW
edge
GDC
3rd party DC
3rd
ISP
3rd
ISP
carriers
UNO/mobile
XaaS
Colocation
Enterprise Customers
ECL
NW
edge
ISP
NW
edge
GIN
LNS
GN
POP
POP
3rd party ISP
Invite eyeballs to create
value for content and
XaaS providers
GIN/LNS/GN
POP to be present in
GDC
HSP/ICP/XaaS
Invite these players
onramp GDC or connect
to GDCI to bring
physical proximity to
customers
Enterprise
FIC接続
Enterprise
Support DX by
GDCI and
colocation
services
GDCI Edge Compute
APIs
Online ordering
Auto provisioning
View service stats
Trouble ticket
Billing
Orchestration
(1)
(2)
(3)
(4)
6. What is edge computing?
Edge computing is a distributed information technology (IT) architecture in which client data is
processed at the “edge” of the network, as close to the originating source device as possible
Data is processed “within” Cloud.
↓
Ability to use rich resources for intensive
processing
Network
Cloud Computing Edge computing
Server close to the edge device process
data
↓
to ensure real-time processing,
ability to reduce data volume
edge device edge device
data transfer data transfer
・ Edge Controller
・ App Delivery
・ Resource Management
Server in customer site
process data
edge device
data transfer
On-premise
Customer server
Network
7. Why edge computing is gathering attention
With development in AI and IoT technology, the volume of digital data is growing rapidly.
Processing data in an place closer to the site
(On Premise)
AI
progress
IoT
progress
To the volume of digital data
increase rapidly
Spread of the cloud
Real Time
Processing
Better
security
Efficient data
processing
industry domain
(Manufacturing, etc.)
mobility area
(e.g. self-driving cars)
Smart City Area
(public safety, etc.)
Customer Experience
(VR/AR, etc.)
Hybrid solution model between cloud and edge is now important.
Edge computing can achieve lower latency, better security, and more efficient data processing
Cloud computing can achieve heavier, more complex data processing
Network traffic growth
End-to-end
management
8. Overview of the Edge Market
The global edge market is expected to grow significantly in the future due to the growing volume of data,
demand for real-time processing, and the impact of the social environment change caused by COVID-19.
Background
Overview of the Edge Market
27.2%
USD 32.8 billion
Global edge computing market
expected to grow 27.2% annually
from 2020 to 2030
Global edge computing market
expected to reach $32.81 billion
by 2030
Data volume
• Long latency issue is occurred because the
amount of data stored in the cloud grows
• We need distributed IT architecture to avoid
sending unnecessary data to the cloud
Real-time
processing
demand
• Increasing demand which require more
immediacy such as automatic driving and
abnormality detection
• Processing data in on-premise
environment to achieve real-time
processing
COVID-19
influence
• Surging online demand, such as remote
asset maintenance and monitoring and
telemedicine
• Both secure environment and Real-time
processing are required for these
operations.
Reference: REPORT OCEAN
GLOBAL EDGE COMPUTING MARKET 2020-2030 BY COMPONENT (HARDWARE, SOFTWARE, SERVICES), TECHNOLOGY (FOG
COMPUTING, MEC), DEPLOYMENT (ON-PREMISE, CLOUD), APPLICATION, INDUSTRY VERTICAL, ORGANIZATION SIZE, AND
REGION: TREND FORECAST AND GROWTH OPPORTUNITY
9. Benefits of Edge computing
The edge computing is a new architecture that sends only the necessary data to the cloud while processing data at the
edge in a fast and secure manner.
on-premise
(SDPF Edge)
edge device
(local device)
Cloud
Solution Image Effect of introducing edge
Cloud only Leveraging the Edge
Latency
① real-time
processing
• Processing data in the cloud can
cause latency
• When delays are not allowed (Ex,
automatic driving), latency is
critical issue.
• Collect and process data closer to
the edge device to reduce latency
• On-premise fast data feedback
enables real-time processing on
edge devices
Data
growth
③ Efficiency of
data
transmission
• The growth of the Internet of
Things has enabled the acquisition
of all kinds of data, resulting in
massive amounts of data.
• Data growth is increases data
transmission and storage costs
• Data can be collected and
processed at the on-pemise
• Efficient data transmission by
sending only the data you need
from the on-premise edge devises
to the cloud
Security
Risk
② Security
Risk Mitigation
• Sending and receiving data to the
cloud via the Internet frequently
increases the risk of information
leakage increases.
• On-Premise can reduce the risk of
data leakage by processing data
without going through an external
network
• Sensitive data can be retained in
the edge, not sent to the cloud
Data
①
②
③
10. Edge Computing System architecture
Cloud
(Region)
Network
Edge
(DC, MEC)
on-premise
(User Sites)
IP-NW
Non-IP
, -, ,
edge device
(User bases, factories, etc.)
Private Cloud
(SDPF Cloud)
Public Cloud
(AWS/Azure
/ GCP, etc.)
Network
Cloud Exchange SDN
Access Network
SDPF Edge
LAN (Wired/Wifi/L5G, etc.)
Edge device
・Smartphones, wearables devices, etc.
・Home appliances, smart speakers, surveillance cameras, sensors, etc.
・Machine tools, robots, drones, cars, etc.
On-premise (User/customer site)
・Servers and other equipment in user locations such as factories, buildings, and offices
Network Edge
・Equipment installed in boxes, base stations, small cells, and telephone
switching facilities
・CDN Cache Servers (Edge Nodes)
・Edge microdata centers such as collocation
・Edge-related services provided by cloud service providers
・Mobile communication systems/services such as 5G, 4G and LTE
A distributed computing architecture that processes large amounts of data with low latency by distributing servers to IoT devices
connected to the network or to a network which close to the edge devices.
11. Challenges of the edge computing
Troubleshoot
• there are cases which support is weak, such as no emergency response, no phone support.
• Support system could be complecated. For example, edge devices’s manufacturers
support the hardware itself, and maintenance of applications equipped with hardware is out
of their scope.
Challenges for the initial complicated settings, how to integrate operation management in various on-premise environments, and how to
build support system that can trouble shoot such environment.
Managing Multiple Edge Terminals
• The edge terminals distributed in different locations, which complicates the environment
and makes management troublesome during operations.
• How to effitiently manage various applications on many edge devices
Initial Deployment Configuration
• Need design the entire solution between the on-premise edge devises and the devices
collecting the data and the cloud to which the data is being sent
• Difficult for end-user to set up the hardware by themselves .
1
2
3
We can solve these challenges with SDPF Edge
12. Features of SDPF Edge
Low latency data processing
- On-premises, local data processing provides
lower latency than via the cloud
Network Efficiency
• Primary data processing at the edge enable
optimizing network as cloud transmt only
necessary data
Common HW/SW platform for services
- SDPF Common hardware and software
infrastructure for each service enables
centralized application management, additional
distribution, and version upgrade.
Fixed monthly fee for hardware maintenance
- Fixed monthly fee includes HW install, seting up,
and maintenance on customer premises
Full stack proposal from edge to cloud
- NTT provides SDPF services from on-premise
edge to network and also to cloud services
Sophisticated know-how and human resources in maintenance are not required as we also provids integrated operations from cloud to
edge devices as end-to-end solution.
SDPF
Edge
General
Edges
Edge Server
Virtualization infrastructure
SDPF
Standard
Services
Customer
Bring in /
Com SI
Build container
infrastructure
Customer bring
in /
Com SI
construction
SDPF Edge
(On Preedge)
edge device
(Local
device)
Cloud
Various applications
Equipment
and devices
SDPF
Services
SDPF Edge
Controller
Azure/AWS
/GCP
A
B
D
E
C
A
B
C
D
E
closed network
14. Abnormality detection of automatic driving
Driving
advice
Driver
Images
Sort images manually(time consuming)
Speed
Acceleration
(x, y, z)
Object detection
Deep Learning
Analyze images
Detect stop signs
Detect stop signs
Speed
Determine whether
vehicle stopped
Image
・Able to detect incidents where a driver ignored stop signs, with 96% accuracy in
the 2000 samples.
SD
15. Abnormality detection of Chemical Plant
Chemical
Plant
Deep Learning
Sensor value
Sensor 3
Sensor 2
Sensor 1
Temperature
Predict value
for 60 min in
the future
Degree of
influence
Calculate degree
of influence
・Visualize degree of influences on each sensors
・Identify sensors that affect temperature and support operation
Actual Value Estimation
18. F1 race is battle of data analytics.
McLaren achieved 25% faster race simulation with NTT
Adopt NTT Com’s Technology to Formula 1 GP
19. Adopt NTT Com’s Technology to Formula 1 GP
Co-developing solutions to apply F1 technology to other industry market.
Improving human performance with wearable sensor.
21. Private Cloud/
Hybrid Cloud
SDPF Edge Service Overview
closed network
Internet
SDPF Edge
Controller
SDPF Edge
Flexible InterConnect (FIC)
+
Local5G
Data storage, visualization, etc.
Apps on SDPF
Things
Cloud
Custom
er
App
+
SDPF
Cloud
Customer base
Controller: Allows edge apps to be cataloged,
versioned, distributed to each SDPF Edge
(Zero Touch Provisioning) and monitored
Data collected from various sensors is
subjected to primary processing by edge
computing, enabling data traffic
optimization
Enables real-time processing with no delay
by running various applications, including SDPF
services, in on-premises environment
image
detection
AI
time series
prediction
AI
OT Security IoT
*Validating Include Services
VM
Foundatio
n
VM
Foundatio
n
VM
Foundatio
n
VM
Foundatio
n
VM
Foundatio
n
Amazon
Web
Services
Microsoft
Azure
edge device
End-to-end
management
NTT provides comprehensive services to enable customers to access to the app on remote-environment, and also achieve end-to-end
management with "SDPF edge controller", "FIC", "Apps on SDPF" and "SDPF edge".
22. SDPF Edge Menu (pricebook)
*This is a standard pricebook price. This is an individual estimate based on your requirements.
*You can customize the CPU, memory, and storage specifications.
*The minimum period of use is 36 months.
Plan 1 Plan 2 Plan 3
use
Video analysis...
High-quority & real-time
processing
image analysis
data analysis
primary data processing
Form factor Rack Rack Box
CPU 32Core 16Core 8Core
Memory 128GB 64GB 32GB
Storage 3.84TB(SSD) 0.96TB(SSD) 1TB(HDD)
Pricebook (units/month)
*tax exemption
From 123,600 yen From 85,100 yen From 47,700 yen
3 plans are available.