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Introduction and background of mobile cloud part 1th
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1th Chapter Motive
1.1 Introduction
1.2 from "cellular" to smartphones
1.3 Evolution of Mobile connectivity: from single to multiple air interface devices
1.4 Network Evolution: Advanced Architecture requirements
1.5 Conclusion
Reference Documents
Mobile cloud can be seen as the result of the evolution and convergence of mobile and wireless communication technologies. Mobile communications and wireless communications are terminology used in both wide-area and short-range technologies.
Mobile Cloud combines the two methods of cellular network and ad hoc local area network into a compound centralized-distributed topological structure.
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2nd Introduction to Mobile Cloud
2.1 introduction
2.2 Mobile Cloud definition
2.2.1 Mobile Cloud Universal definition
2.2.3 Mobile Cloud Definition: Resource cloud
2.3 Mobile cloud
2.5 collaboration and incentive type
2.5.2 altruistic collaboration
2.5.4 Social collaboration
2.6 conclusion
reference
The word "cloud" is an abstraction of the system, which is composed of interconnected distributed resources. These resources are shared in the cloud to achieve the stated goals. Service delivery is the most common goal in cloud applications.
The mobile cloud has a composite or hybrid architecture that combines the characteristics of ad hoc and cellular networks.
Mobile Cloud Resources:
1. Radio Resources
Time, spectrum, space, energy
2. Built-in resources
Is the physical resources available on each node, such as:
A. Compute resources (CPU, DSP, mass memory, graphics processor chip)
B. Sensor
C. Actuators (devices corresponding to the sensor, including speakers, monitors, light sources, etc.)
3. Energy Resources
4. Connecting Resources
Air interface: Cellular communication (2G,3G,4G), short-range communication (Bluetooth, WLAN, NFC)
Future: Visual communication (visible light COMMUNICATION,VLC)
5. Application Resources
6. Social resources
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3rd. Device resource sharing in mobile cloud
3.1 Introduction
3.2 Resource Sharing instances
3.3 Speaker Sharing
3.4 Microphone Sharing
3.5 Image sensor sharing
3.6 Display Sharing
3.7 Universal sensor sharing
3.8 Keyboard Sharing
3.9 Data Pipeline Sharing
3.10 Mobile app Sharing
3.11 Large capacity Memory sharing
3.12 Handling Unit Sharing
3.13 Battery Sharing
3.14 Conclusion
Reference Documents
Basic classification of resource sharing:
1. Resource Aggregation
Put the same kind of resources together in an additive way
For example, overlay the phone screen to create a larger screen, connect the CPU wirelessly to create a more powerful processing unit
2. Resource Transfer
Transfer resources from certain devices to other devices
3. Resource Consolidation
The merging of resources will result in new resources that cannot be realized using single non-consolidated resources
such as shared microphone for voice-directed acquisition
3D Sound for shared speakers
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The 2nd part of Mobile cloud support technology
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4th Chapter Wireless Communication Technology
4.1 Introduction
4.2 Cellular communication Systems
4.3 Short distance communication technology
4.3.1 bluetooth
4.3.2IEEE 802.11
4.4 Combined Air Interface
4.5 Building a mobile cloud
4.6 Conclusion
Reference Documents
Bluetooth communication typically occurs between 1 primary devices and at least one, up to 7 active slave devices, all of which are connected through the primary device only.
The primary device can cause the device to stop working, so the theoretically connected device can be more, but the number of communication partners in the working state cannot exceed 7 active devices.
Using Bluetooth to form a mobile cloud is not optimal because of the limitations of topology aspects (master and slave).
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The 5th chapter of Mobile Cloud Network coding
5.1 Introduction to Network coding
5.2 Inter-stream network encoding
5.3 Inter-stream network encoding required for user collaboration in the mobile cloud
5.3.1 Analog Network coding
Comparison of 5.3.2 Analog network coding and Digital Network coding
The influence of 5.3.3 media access control strategy
5.4 In-Stream network encoding
5.5 In-stream network encoding required for user collaboration in the mobile cloud
Information exchange and information sowing of 5.5.1 mobile cloud
5.5.2 distributed storage in the mobile cloud
5.5.3 security, privacy, and data integrity in the mobile cloud
5.6 Conclusion
Reference Documents
Inter-stream Network encoding
Analog Network encoding:
The general coding is performed on the third layer (network layer), and the analog network coding is explored to perform the coding operation directly on the analog domain air interface.
At present, analog network coding is difficult to achieve
In-Stream network encoding
Stochastic linear network coding (random Linear networks CODING,RLNC)
Network encoding
Maximum flow minimum cut capacity can be achieved
Improved mesh throughput
provides security
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6th chapter the formation and maintenance of mobile cloud
6.1 Introduction
6.2 Mobile Cloud formation phase
6.3 Service discovery for mobile cloud
6.4 Conclusion
Reference Documents
Three stages:
Cloud formation
Cloud Run
Cloud Maintenance
Mobile ad hoc Network: Cellular ad hoc network,manet
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The 3rd part of the social problem of mobile cloud
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The 7th chapter on the principle of cooperation in nature
7.1 Introduction
7.2 Cheetahs and hyenas
7.3 Orca (Killer whale)
7.4 Blood sucking bat
7.5 Monkeys
7.6 Prisoner's Dilemma
7.7 Conclusion
Reference Documents
The collaborative rules of Nature:
1. Reciprocity
2. Monitoring and punishment of fraudsters
3. Investing in future collaboration
4. Remuneration tolerance (since not all participants are able to benefit at the same time)
5. The cognition of the Collaborating partners
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8th Chapter Social Mobility Cloud
8.1 Introduction
8.2 Different forms of synergy
8.3 Social networks and mobile cloud
8.3.1 Evolution stage Ⅰ: Unknowable times
8.3.2 Evolution phase Ⅱ: Mobile network support social networks
8.3.3 Evolution phase Ⅲ: Deep Integration: Interaction between social networks and mobile networks
8.4 Collaboration in a relay network: a simple instance
8.5 Conclusion
Reference Documents
True self-interest behavior is collaboration
User collaboration is the basic principle of mobile cloud, and mobile cloud relies on the willingness of mobile users to collaborate
4 different types of collaboration:
Force collaboration
Technical Support Collaboration
Social support collaboration
Altruistic collaboration
(There are no strict boundaries between these forms of collaboration, and technical support collaboration is considered the most potential for collaboration with social support)
The evolution of social networks and mobile networks:
Unknown times
Coexistence era (mobile network supports social networks)
the era of collaboration (deep integration, interaction)
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Part 4 Green Mobile cloud
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9th Chapter Green Mobile Cloud: Make mobile devices more energy-efficient
9.1 Introduction
9.2 Collaborative Downloads
Energy consumption of 9.2.1 sequential local exchange
9.2.2 power consumption for parallel local switching
9.3 Collaborative Streaming media
9.4 Comparison between different methods
9.5 Conclusion and Prospect
9.6 Network operators ' energy gain
9.7 Conclusion
Reference Documents
Research shows that wireless communication is more energy-intensive than other parts of the mobile device (CPU, display, storage access)
Network operators can also achieve the goal of saving energy
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the 5th part of mobile cloud applications
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Chapter 10th Mobile Cloud Applications
10.1 Introduction
10.2 Forced Collaboration-Overlay network
10.2.1 crowdsourcing information provided by network operators
10.2.2 The crowdsourcing information provided by the manufacturer
10.2.3 crowdsourcing information provided by mobile apps
10.3 Technical Support collaboration-Network coverage
10.4 Social support collaboration-Overlay network
10.5 Altruism-Network coverage
10.6 Force Collaboration--Move the cloud directly
10.7 Technical Support collaboration--Direct mobile Cloud
10.7.1CoopLoc
10.7.2 Collaborative Access
10.8 Social support collaboration--Direct mobile Cloud
10.8.1 shared Internet connection
10.8.2 sharing Apps
10.9 Altruism-Direct mobile Cloud
10.10 Industry Events
10.11 Conclusion
Reference Documents
There are two main architectures for the mobile cloud:
1. Cover the mobile Cloud (Overlay mobile CLOUD,OMC)
Mobile users connect to each other via overlay networks
There may be a dedicated cloud service for managing devices and their resources
2. Short-range mobile cloud (short-range mobile CLOUD,SRMC)
Not common
May also contain a direct connection to the mobile device
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Part 6th Mobile Cloud Outlook and conclusions
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The 11th Chapter vision and Prospect
11.1 Insights on the future of mobile cloud
11.2 Development of mobile cloud and related technologies
11.2.1 Internet of Things
11.2.2 machine-to-machine communication (ATM)
11.2.3 device-to-device technology (D2D)
11.3 Potential new applications for mobile cloud
11.4 Resource sharing as one of the pillars of social interaction: the birth of a shared economy
New applications:
Merging local resources
Mass sensing (crowdsourcing perception)
Collaborative content distribution or generation
Cloud-to-cloud communications
July 10, 2016
On the lakeside of Nanhu Lake
Mobile Cloud Computing: the development and utilization of distributed resources in wireless, mobile and social networks