LTE MTC optimizes LTE Advanced to better support machine-to-machine communications by increasing battery life, reducing device complexity, and enhancing coverage while co-existing with existing mobile broadband services. These optimizations are part of the upcoming Release 13 of the 3GPP standard and will benefit the growing market of connected devices and machines.
3G and LTE Enterprise Small Cell Architecture 2016David Chambers
Webinar slides with presentations from David Chamber/ThinkSmallCell and Amit Jain/Spidercloud contrasting the various Enterprise small cell architectures.
The webinar considered building size segmentation, 3G/4G technology mix, alternative approaches for distributed radio and controller functions, with a forward looking section covering LAA, MulteFire and shared spectrum
A Q&A session touched on the impact of Wi-Fi, how Enterprise IT departments look at co-existence of LTE/Wi-Fi, and whether small cells can be used to provide full multi-operator service.
3G and LTE Enterprise Small Cell Architecture 2016David Chambers
Webinar slides with presentations from David Chamber/ThinkSmallCell and Amit Jain/Spidercloud contrasting the various Enterprise small cell architectures.
The webinar considered building size segmentation, 3G/4G technology mix, alternative approaches for distributed radio and controller functions, with a forward looking section covering LAA, MulteFire and shared spectrum
A Q&A session touched on the impact of Wi-Fi, how Enterprise IT departments look at co-existence of LTE/Wi-Fi, and whether small cells can be used to provide full multi-operator service.
Radio Link Analysis for 4G TD- LTE Technology at 2.3 GHz FrequencySukhvinder Singh Malik
The Long Term Evolution (LTE) is the latest step in an advancing series of mobile telecommunications systems.
In this paper, authors show interest on the link budgeting the information presented here will help readers understand how the budgeting will be done in LTE. This paper provides
dimensioning of LTE for particular city.
This will provides the number of cell count. Here we tell about a GUI MATLAB System for calculation of no. of resources required to provide services in particular area with optimum cost and better quality.
Military, Defense and Public Safety Mesh Networks [MeshDynamics]MeshDynamics
Modern warfare is network centric. Robust communication with IP based devices is key. This creates expectations of high performance over many hops, supporting static and mobile mesh nodes in one secure framework.
Recently Qualcomm announced its 5G (the fifth generation mobile communications) vision. 3GPP is going to finalize the 5G standard by 2018. 5G is scheduled to launch in around early 2020s. Even if it is not determined yet regarding the standard technology details, many researchers expect that 5G will transfer 1000 times more data, and thus, can connect billions of IoT (Internet of Things) devices at the same time. Key candidate technologies that enable 5G to support IoT devices connection are millimeter wave/MIMO (multiple input and multiple output) technology, cloud RAN/network function virtualization (NFV)/ software defined network (SDN), ultra dense network (UDN), low latency network and RSMA (Reservation multiple access)/FDR (full-duplex relaying). Following Qualcomm patents illustrate some examples of the 5G standard technology R&D of Qualcomm.
Radio Link Analysis for 4G TD- LTE Technology at 2.3 GHz FrequencySukhvinder Singh Malik
The Long Term Evolution (LTE) is the latest step in an advancing series of mobile telecommunications systems.
In this paper, authors show interest on the link budgeting the information presented here will help readers understand how the budgeting will be done in LTE. This paper provides
dimensioning of LTE for particular city.
This will provides the number of cell count. Here we tell about a GUI MATLAB System for calculation of no. of resources required to provide services in particular area with optimum cost and better quality.
Military, Defense and Public Safety Mesh Networks [MeshDynamics]MeshDynamics
Modern warfare is network centric. Robust communication with IP based devices is key. This creates expectations of high performance over many hops, supporting static and mobile mesh nodes in one secure framework.
Recently Qualcomm announced its 5G (the fifth generation mobile communications) vision. 3GPP is going to finalize the 5G standard by 2018. 5G is scheduled to launch in around early 2020s. Even if it is not determined yet regarding the standard technology details, many researchers expect that 5G will transfer 1000 times more data, and thus, can connect billions of IoT (Internet of Things) devices at the same time. Key candidate technologies that enable 5G to support IoT devices connection are millimeter wave/MIMO (multiple input and multiple output) technology, cloud RAN/network function virtualization (NFV)/ software defined network (SDN), ultra dense network (UDN), low latency network and RSMA (Reservation multiple access)/FDR (full-duplex relaying). Following Qualcomm patents illustrate some examples of the 5G standard technology R&D of Qualcomm.
Bringing Data to Life. Spreadsheets are boring! (ClickZ Live Singapore 2014)Dave Sanderson
It doesn’t matter how good the analysis is if the key decision makers can’t understand it quickly. This session will take you through visual languages that can be used to highlight key points in your analysis, techniques to simplify data visualization, and go through common mistakes that can kill a good piece of valuable analysis.
Take homes include:
Understand how to use visual tools to communicate data effectively – beyond just tables and bar charts
Learn how to simplify your data presentations so they are easier to understand
Identify and avoid common pitfalls in data visualisation.
Presented on 3rd December, 2014 at ClickZ Live Singapore
http://www.clickzlive.com/singapore/
LTE MTC: Optimizing LTE Advanced for Machine Type CommunicationsQualcomm Research
LTE MTC will significantly increase battery life, reduce cost/complexity, and enhance coverage by optimizing LTE Advanced for machine-type communications. These optimizations will empower innovative machine-to-machine (M2M) services across a wide range of use cases that demand the ubiquitous coverage, high reliability, and robust security of 4G LTE connectivity, without the high data rate requirements of mobile broadband.
For more information, please visit www.qualcomm.com/lte-mtc.
Download the presentation here: https://www.qualcomm.com/media/documents/files/lte-mtc-optimizing-lte-advanced-for-machine-type-communications.pdf
Janette Stewart, Analysys Mason - Presentation from Analysys Mason (Qualcomm study) for SPF 140217
Presented at the Cluster 1/4 UK Spectrum Policy Forum meeting
More information is available http://www.techuk.org/about/uk-spectrum-policy-forum
Full immersion is achieved by simultaneously focusing on the broader dimensions of visual quality, sound quality, and intuitive interactions. This presentation discusses how:
- Technology improvements continue to drive more immersive experiences, especially for VR and AR
- High Dynamic Range (HDR) will enhance the visual quality on all our screens
- Scene-based audio is a new paradigm for 3D audio
- Natural user interfaces like voice, gestures, and eye tracking are making interactions more intuitive
The Internet of Things is bringing a massive surge of smart, connected devices that will enable new services and efficiencies across industries. This requires wireless technologies to scale up or down depending on the application performance needs—to connect virtually anything. And now, LTE is evolving for low-throughput, delay-tolerant IoT use cases. The new narrowband LTE technologies (eMTC & NB-IoT) will deliver lower complexity, longer battery life, and deeper coverage for wide-area IoT applications.
Next-generation immersive use cases such as VR and AR will demand even faster data rates, lower latency, and more capacity that will push the boundaries of LTE networks. Now, Gigabit LTE is here to deliver fiber-like wireless broadband that meets these expanding requirements. We are leading the Gigabit LTE evolution. Read more at https://www.qualcomm.com/invention/technologies/lte/advanced-pro/gigabit-lte
Internet of Things & Hardware Industry Report 2016Bernard Moon
Overview of industry trends and insights of Fortune 500 companies and startups' activities in the Internet of Things (IoT) and hardware space. We cover connected home, wearables, healthcare, robotics & drones, and industrial IoT.
The expanding role of LTE Advanced, delivering new, transformative technologies that go well beyond faster peak data rates. These new technologies include introducing LTE-M for efficient machine-type communications, expanding LTE Direct device-to-device capabilities and use cases, empowering new services-such as LTE Ultra-Low Latency, and also driving convergence of traditionally disparate networks, spectrum types, and deployment models-such as LTE and Wi-Fi Convergence. Realizing a new connectivity paradigm with LTE Advanced-trailblazing the path to 5G!
“LTE-M” stands for Long Term Evolution for Machines. It is a low power wide area radio technology standard published by 3GPP in Release 13 that addresses the requirements of the IoT (Internet of Things). The technology provides improved both indoor and outdoor coverage, supports massive numbers of low throughput devices, low delay sensitivity, ultra-low device cost, low device power consumption and optimized network architecture.
Leading the LTE IoT evolution to connect the massive Internet of ThingsQualcomm Research
Connecting the IoT—and virtually everything—requires wireless technologies that can scale up to high-performance IoT but also scale down to low complexity IoT application needs. LTE with its global footprint and scale will play a key role in connecting the IoT, and continues to evolve to also address the massive, wide-area, low-power, low-complexity IoT applications. In 3GPP Release 13, two complementary narrowband technologies – eMTC & NB-IoT – were introduced to reduce complexity, lower power consumption, deepen coverage, and increase user density. In 2017, commercial LTE IoT is starting to connect the massive IoT, and it will become an essential part of the 5G Platform, which initially focuses on enhanced mobile broadband. Its rich roadmap will further enhance efficiencies, bring new capabilities, and expand into unlicensed spectrum to meet tomorrow’s massive IoT needs.
For more information, visit us at www.qualcomm.com/lte-iot
Qualcomm's vision for a scalable, intelligent, and converged connectivity fabric to handle the extreme variations and requirements of this new era where the industry prepares for tens of billions of devices, machines, and things that will be wirelessly connected to the Internet and each other. At the heart of this vision are new, transformative technologies that are expanding LTE, Wi-Fi, and Bluetooth to connect new industries, enable new services, and empower new user experiences. It also encompasses Qualcomm's 5G vision to meet the ever-expanding needs for this connectivity fabric in the next decade. Welcome to the future of wireless!
Conférence-débat du 10 juin 2015, organisée par le groupe Réseaux et Services de Telecom ParisTech Alumni "Quels réseaux pour l'Internet des Objets ?"
Présentation d'Ambroise Popper (Sequans)
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.
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!
APNIC Foundation, presented by Ellisha Heppner at the PNG DNS Forum 2024APNIC
Ellisha Heppner, Grant Management Lead, presented an update on APNIC Foundation to the PNG DNS Forum held from 6 to 10 May, 2024 in Port Moresby, Papua New Guinea.
# Internet Security: Safeguarding Your Digital World
In the contemporary digital age, the internet is a cornerstone of our daily lives. It connects us to vast amounts of information, provides platforms for communication, enables commerce, and offers endless entertainment. However, with these conveniences come significant security challenges. Internet security is essential to protect our digital identities, sensitive data, and overall online experience. This comprehensive guide explores the multifaceted world of internet security, providing insights into its importance, common threats, and effective strategies to safeguard your digital world.
## Understanding Internet Security
Internet security encompasses the measures and protocols used to protect information, devices, and networks from unauthorized access, attacks, and damage. It involves a wide range of practices designed to safeguard data confidentiality, integrity, and availability. Effective internet security is crucial for individuals, businesses, and governments alike, as cyber threats continue to evolve in complexity and scale.
### Key Components of Internet Security
1. **Confidentiality**: Ensuring that information is accessible only to those authorized to access it.
2. **Integrity**: Protecting information from being altered or tampered with by unauthorized parties.
3. **Availability**: Ensuring that authorized users have reliable access to information and resources when needed.
## Common Internet Security Threats
Cyber threats are numerous and constantly evolving. Understanding these threats is the first step in protecting against them. Some of the most common internet security threats include:
### Malware
Malware, or malicious software, is designed to harm, exploit, or otherwise compromise a device, network, or service. Common types of malware include:
- **Viruses**: Programs that attach themselves to legitimate software and replicate, spreading to other programs and files.
- **Worms**: Standalone malware that replicates itself to spread to other computers.
- **Trojan Horses**: Malicious software disguised as legitimate software.
- **Ransomware**: Malware that encrypts a user's files and demands a ransom for the decryption key.
- **Spyware**: Software that secretly monitors and collects user information.
### Phishing
Phishing is a social engineering attack that aims to steal sensitive information such as usernames, passwords, and credit card details. Attackers often masquerade as trusted entities in email or other communication channels, tricking victims into providing their information.
### Man-in-the-Middle (MitM) Attacks
MitM attacks occur when an attacker intercepts and potentially alters communication between two parties without their knowledge. This can lead to the unauthorized acquisition of sensitive information.
### Denial-of-Service (DoS) and Distributed Denial-of-Service (DDoS) Attacks
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.
Lte mtc - optimizing lte advanced for machine-type communications
1. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 1
November 2014
LTE MTC: Optimizing LTE
Advanced for Machine-Type
Communications
2. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 2
LTE Advanced is evolving and expanding into new frontiers
Using all spectrum types Empowering new services Connecting more industries
Extending LTE Advanced
to unlicensed spectrum
Making Wi-Fi a
virtual extension
of LTE
LTE Direct always-on
proximity awareness
Evolving LTE
Broadcast, going
beyond mobile
Connecting more
verticals like cars
Optimizing LTE Advanced for
machine-type communications
Faster and better
mobile broadband
Advanced receivers
Evolving carrier aggregation
Advanced antenna features
Further enhancing HetNets
3. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 3
Optimizing LTE Advanced for Machine-Type Communication
LTE MTC is part of the upcoming Release 13 of the global 3GPP standard
Benefits from the reliability,
pervasiveness, efficiency, and
longevity of 4G LTE
1
Significantly increases battery life,
while reducing cost/complexity
and enhancing coverage
2
Co-exists with mobile broadband
services enabling continued M2M
business model innovations
3
Plays a key role among the multiple
solutions required to connect the
Internet of Everything
4
4. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 4
The IoE is bringing a massive surge of smart, connected things
1 Source: Machina Research, February, 2014
Connected Home
Transforming industries
with innovative services
and useful information
~25 Billion
Interconnected devices
forecast in 20201
TransportationSmart Cities Retail EducationIndustrial Healthcare
5. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 5
Connecting the IoE requires heterogeneous wireless connectivity
Powered by global standards with seamless interoperability across multiple vendors
Personal Area (WPAN) Local Area (WLAN) Wide Area (WWAN)
The center of the connected
home/enterprise, evolving for
the IoE with 802.11ah
Replaces cables for connecting
mobile/PC accessories, evolving
for the IoE with Bluetooth Smart
For applications that demand
ubiquitous coverage and high
reliability, evolving for the IoE
with LTE MTC
Bluetooth Wi-Fi 802.11 3G and 4G LTE
Supporting the wide range of IoE use cases with varying performance, cost, and energy requirements
6. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 6
Valuable M2M services are enabled by the pervasiveness,
reliability, security, and performance of 3G and 4G LTE
1 Source: GSMA Intelligence, Jul. ’14; 2 Source: NIST, “Consolidated NIST Wireless Characteristics Matrix V5”, 10/25/2010
Ubiquitous coverage with established networks
serving ~2.7 Billion 3G/4G connections worldwide1
High reliability that provides redundant
network design with >99% availability2
Mature ecosystem backed by global standards
with seamless interoperability
Robust security features built-in; trusted in
government and finance sectors
High performance with broadband data rates,
real-time responsiveness, and managed QoS
3G and 4G LTE
Machine-to-Machine(M2M)Services
Real-time control
and automation
Remote monitoring
and management
Broadband
services
OTT managed
cloud services
Financial services
7. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 7
M2M services are transforming the way we live and do business
Connected Cities
Lighting, Parking, Water Management
Connected Transportation
Automotive, Asset Tracking, UBI
Connected Industrial
HVAC, POS, Smart Grid
3G and 4G LTE Gateways, Wearables, Devices
Connected Health Care
Smart Energy, Home Security
Connected Home
8. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 8
4G LTE provides a solid foundation for future M2M growth
Source: GSA (www.gsacom.com) – July 2014 for networks and June 2014 for devices
Common global standard
with a vibrant global ecosystem
Network longevity
LTE has become one of the fastest growing wireless technologies
providing a solid foundation for many years to come
Network efficiency
Increased spectral efficiency, simplified network infrastructure,
and more efficient signaling
Superior performance
LTE and LTE Advanced provides the fastest and best broadband
experiences for applicable M2M services
310+ Networks
in 110+ countries
1,500+ Devices
from 100+ vendors
9. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 9
M2M requirements often differ from mobile broadband
Requires optimizations to make technology scalable to a wide range use cases
Years of battery life
Often battery-powered and deployed in field for many years
Low cost/complexity devices
Usually do not require the wideband operation of LTE
Deep coverage
May be deployed in challenging locations (e.g., underground)
Low Throughput
Smart Machines
10. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 10
LTE MTC optimizes LTE Advanced for M2M
Part of the upcoming Release 13 of the global 3GPP standard
Reduces device cost/complexity
New device category with narrowband operation
Enhances coverage
Advanced techniques to reach challenging locations
Significantly increases battery life
New enhanced power save modes and efficient signaling
Co-existence
Efficiently integrates with existing
LTE Advanced services
11. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 11
LTE MTC significantly increases battery life
With new enhanced power modes and efficient signaling
Enhanced Power Save Mode (PSM)
More efficiently turn on/off modem; optimized for device-originated or scheduled applications
Extended Discontinuous Reception (DRX)
Longer sleep cycles optimized for delay-tolerant, device-terminated applications
Connectionless Random Access Channel (RACH)
Data transmissions via common channel for more efficient transition between states
Less frequent Tracking Area Updates (TAUs) and measurements
Configurable for low- to zero-mobility M2M applications
Capable of many
years of battery life
12. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 12
LTE MTC introduces a new Power Save Mode (PSM)
More efficiently turn on/off modem for device-originated or scheduled applications
Without LTE MTC
LTE Advanced with deep sleep
Device requires signaling prior to data transmission in
order to register with the network
With LTE MTC
LTE Advanced with Power Save Mode (PSM)
Device remains registered with the network, reducing
the signaling required for modem wakeup
Efficient modem
‘wakeup’
PSM
ServiceRequestorTAU
Modelpowerconsumption
Time
M2MData(Tx/Rx)
Off
Setup
Setup registration
and connection
Modelpowerconsumption
Time
M2MData(Tx/Rx)
13. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 13
LTE MTC introduces longer sleep cycles
Delivering critical power savings for delay-tolerant, device-terminated applications
Without LTE MTC
Sleep cycles optimized for human-type communications
Current maximum sleep cycle is 2.56 seconds, resulting
in unnecessary signaling
With LTE MTC
Sleep cycles extendable for machine-type communications
Capable of extending sleep cycles to many minutes, eliminating
unnecessary signaling to save power
Sleep
DRX
TAU
Sleep
DRX
TAU
TAU
Delay
Tolerance
M2MData(Tx/Rx)
Unnecessary
signaling
Time
Modelpowerconsumption
PSM
Sleep
DRX
TAU
M2MData(Tx/Rx)
Extended sleep cycle eliminates
unnecessary signaling
Time
Modelpowerconsumption
14. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 14
LTE MTC enables a new, simpler M2M device capability
Optimized for relatively small, infrequent data transmissions
1 Based on peak data rates per 3GPP standard
Wideband (20 MHz)
Fast Data Rate (300+ Mbps1)
Diversity Antennas
FDD or TDD Operation
Mobile
Broadband
Narrowband (~1 MHz)
Reduced Data Rate (<2 Mbps1)
Single receive antenna
Half Duplex Operation
Low throughput
Smart Machines
• Simplifies RF hardware
• Reduces baseband complexity
15. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 15
LTE MTC delivers enhanced coverage
Redundant UL/DL Transmissions
Send same data in consecutive Transmit Time Intervals
Single Frequency Network (SFN) Multicast
Same broadcast signal from all cells
Trade off spectrum efficiency and latency
LTE Advanced sub-frames (1 ms)
More reliable in-building coverage Better cell-edge performance Configurable per cell/UE/channel
16. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 16
LTE MTC capitalizes on hyper-densification of small cells
Solving the 1000x data challenge with small cells everywhere improves M2M coverage
Enterprise
Metro / PicoResidential / Neighborhood
M2M UEs
Macro Cell
Brings the network closer improving
coverage and reducing power
Enhances uplink link budget Enables flexible deployment models
(macro cells, small cells, and relays)
17. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 17
LTE MTC co-exists with today’s mobile broadband services
Efficiently integrated with existing LTE Advanced spectrum and networks
1 Assumptions: ISD Urban – 500m, 3 cells per site, Channel b/w 10MHz, Cell capacity: DL 14Mbps, UL 9.6Mbps; Traffic types include data and commands for Electric Meter, Water Meter, Security Panel, HVAC - Residential, Outdoor Street Light, Off Street
Parking Meter, Parking Space Sensor, Water Assets; 100% of traffic assumed in 6hr. busy period – see appendix for more details on MTC sample scenario
Co-existence
Time- and Frequency-Division Multiplexing between LTE
MTC services and other services (e.g., mobile broadband)
Flexible capacity
Multiple narrowband regions supported for scalable
resource allocation between LTE MTC and non-MTC
Non-MTC Services
Non-MTC Data
LTE MTC
Non-MTC Data
LTE MTC
Non-MTC Services
Non-MTCControl
Non-MTCControl<0.1%
of data capacity for
MTC traffic based
on sample scenario1
18. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 18
LTE MTC proposed as part of Release 13 of the 3GPP standard
New features introduced in R11 and R12, but critical optimizations realized with R13
* Extended Access Barring
Overload Control
Ability to utilize EAB* to restrict access
to delay-tolerant devices in overload
New Device Category
Marginal cost/complexity reductions
plus elementary power savings
LTE MTC
RELEASE 11
RELEASE 12
RELEASE 13
Enhanced Coverage
Advanced techniques to reach
challenging locations
New, simpler device
Narrowband operation reduces
overall device complexity/cost
Significant power savings
New enhanced power save
modes and efficient signaling
19. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 19
The 4G LTE ecosystem is
already delivering innovative
solutions to support the
growth of M2M services
20. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 20
M2M services are benefiting the entire 4G LTE ecosystem
Capitalizing on the massive surge of smart, connected things with the Internet of Everything
New revenue streams
Better customer engagement
Reduce labor costs (service/repair)
Increase productivity
Improve safety and security
Enhanced user experience
New M2M services
Potential OTT services
Flexible capacity allocation
Businesses & ConsumersMobile Operators M2M Service Providers
The high growth potential of M2M is resulting in unprecedented levels of interest and investment
21. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 21
Mobile operators are embracing innovative M2M business models
With solutions to simplify the deployment and management of M2M services
Apps
Simplified Service
Management
Billing/Cost Management
Real-time Diagnostics
Simplified 4G LTE
Connectivity
Global SIM
Automated Provisioning
Simplified Device
Development
Certified modules
Certified devices
Simplified Application
Development
M2M APIs and pre-packaged apps
Cloud infrastructure
End-to-end personalized service
offerings through partnerships
Flexible billing options that cater to
M2M applications and services
Dedicated M2M customer service
and professional services
22. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 22
The industry is working on a standardized M2M service layer
oneM2M provides a secure and efficient end-to-end data/control exchange
oneM2M is a global organization creating a scalable and interoperable standard for communications of devices and services used in M2M applications and the Internet of Things.
The views expressed on this slide are those of Qualcomm, and they may not represent a consensus position within oneM2M or cover all aspects/features of the oneM2M specifications.
Provides reliable end-to-end
security (e.g., encryption)
oneM2M
messages
App App
Service
Layer
Service
Layer
LTE MTC
API API
• Middleware between M2M apps
& communication HW/SW
• Typically implemented upon IP
• Provides functions common
across M2M apps
Enhances M2M data
transport efficiency
Simplifies device life-cycle
management
Reduces time-to-market with
standardized protocols & APIs
Delivers interoperability
across M2M apps
23. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 23
Qualcomm is uniquely
positioned to connect the
Internet of Everything
24. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 24
Qualcomm 4G LTE technology leadership
A history 4G LTE technology firsts and product innovation
Qualcomm Snapdragon and Qualcomm Gobi are products of Qualcomm Technologies, Inc.
Industry-first Chipsets from QTI
• World’s 1st LTE Advanced solution (Jun ’13)
• First with LTE Broadcast (Jan ‘14)
• LTE Advanced cat 6 (300 Mbps) solution
announced in Nov. ‘13
Standards Leadership
• A main contributor to key LTE Advanced
features
• Instrumental in driving interference
cancellation and other Hetnets features
• Pioneering work on LTE Direct, LTE MTC
and LTE in unlicensed spectrum
Industry-first Demos
• MWC 2012: Live Over-The-Air (OTA)
HetNet Demo with Mobility
• MWC 2013: Live OTA opportunistic
HetNet Demo with VoIP Mobility;
Authorized Shared Access (ASA) demo
• MWC 2014: Enhanced HetNets with
data- channel interference cancellation;
Live OTA LTE Direct demo
At the forefront of evolving and expanding LTE Advanced into new frontiers
25. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 25
Qualcomm® Gobi™ 3G and 4G M2M solutions
Proven global solutions supporting multiple carriers with multimode capability
Qualcomm Snapdragon and Qualcomm Gobi are products of Qualcomm Technologies, Inc. 1 As of September 2014
More than 175 3G/4G and Wi-Fi / HPGP modules and solutions from leading OEMs1
A partial list of cellular modules from various vendors is available at: www.m2msearch.com
• Integrated applications processors, location capability, and WiFi/BT connectivity support
• Extended product life
• Additional products available, including Qualcomm® SnapdragonTM Processors for Automotive
26. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 26
Qualcomm is uniquely positioned to connect the IoE
An unmatched technology portfolio and end-to-end solutions across the entire IoE value chain
Qualcomm Technologies, Inc.
RF
Connectivity
Bluetooth3G/4G LTE Wi-Fi
Supporting Technologies
Apps
ProcessingHPGP
Power
Management
System /
OS
Location &
Sensors
27. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 27
Optimizing LTE Advanced for Machine-Type Communication
LTE MTC is part of the upcoming Release 13 of the global 3GPP standard
Benefits from the reliability,
pervasiveness, efficiency, and
longevity of 4G LTE
1
Significantly increases battery life,
while reducing cost/complexity
and enhancing coverage
2
Co-exists with mobile broadband
services enabling continued M2M
business model innovations
3
Plays a key role among the multiple
solutions required to connect the
Internet of Everything
4
Learn more at:
www.qualcomm.com/lte-mtc
28. @2013-2014 Qualcomm Technologies, Inc. and/or its affiliated companies. All Rights Reserved. 28
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