Terminal, Software TechnologiesVirtualization technology Fault tolerant Open source NTT Cyber Space...
Transcript of Terminal, Software TechnologiesVirtualization technology Fault tolerant Open source NTT Cyber Space...
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Telephones in the NGN Era: Wideband Telephones and Quasi-wideband Speech Technology
Kemari: Fault Tolerant Virtual Machine Technology
Business Process Optimization Support Tool “BPOST”
On-line Lightning Prediction System
Terminal, Software Technologies
Contents
What’s Hot in R&D
Terminal technologies for ubiquitous services and software technologies related to solution businesses.
Copyright © 2009 NTT
NTT Research and Development 2009 Review of Activities
What’sHot in R&D Terminal, Software Technologies
Telephones in the NGN Era: Wideband Telephones and Quasi-wideband Speech Technology
Overview
Features
Application scenarios
We developed wideband speech codec compliant with international standards ITU-TG.711.1 and quasi-wideband speech technology. The codec enables high-quality andhigh-fidelity speech communication on IP telephones, high-functionality voice terminalsand “software phones”. The quasi-wideband speech technology that widens voicebandwidth by simulation and reproduces a received voice in high sound quality even ifthe caller uses a conventional phone. The first product of these developments—namely aNGN-compatible wideband phone called the “Hikari Clear Phone HQ-100”—went on salein February 2009. From now onwards, we plan to expand our line-up of productscompatible with this phone.
■ ITU-T G.711.1 is adopted and clear communication by speech with a realisticsensation—across a wider speech bandwidth than the conventional telephony(namely, 7 kHz compared to 3.4 kHz)—is achieved
■ Communication without the re-encoding associated with conventional telephony(G.711) is made possible
■ Bandwidth can be widened in a simulated technique and voice calls can be listened toover a wide bandwidth even in the case that the caller is using a conventional phone
■ QoS of NGNs is applied, and high-quality speech communication is attained■ Smooth migration from conventional telephone to high-quality ones is fostered
■ Communication within the family ■ A wide range of applications other than households and businesses is supposed
Next-generation network (NGN) Telephone High sound quality
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G.711.1Communication
possible with conventional telephones
(G.711)
While high quality at 7 kHz is attained by a scalable structure, communication without the re-encoding associated with G.711 is made possible.
Expandedlayer
Core layer
(G.711)
Wideband speech
3.4~7 kHz
Telephone band
~3.4 kHz
High-quality speech communication by adoption of G.711.1 and quasi-wideband speech technology
Quasi-wideband (created by telephone’s function)
Wideband telephony (G.711.1)
Frequency3.4 kHz 7 kHz
Convectional telephony
Quasi-wideband
Even when the caller uses a conventional phone, a high-frequency signal (3.4 kHz and above) is created on the receiver terminal, and wideband sound is reproduced.
NTT Cyber Space Laboratories
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NTT Research and Development 2009 Review of Activities
What’sHot in R&D Terminal, Software Technologies
Kemari: Fault Tolerant Virtual Machine Technology
Overview
Features
Application scenarios
Kemari is a new, high-availability technology that enables applications to continue theirexecution without interruptions, even when a hardware failure occurs. Kemari continuallysynchronizes the status of virtual machines (VMs*1) running on different computers bymeans of software, letting applications to execute transparently on one computer if ahardware failure occurs on the other. Kemari is independent of application software oroperating system (OS*2), and it is applicable to various services operating on Windows*3
or Linux*4. It has been released as open-source software implemented as an extension tothe Xen*5 virtual machine monitor.
■ Hardware failures are virtualized, and applications can continue their execution withoutinterruptions
■ Modifications to application software or OS are unnecessary■ Flexible hardware configuration (e.g., one secondary computer to synchronize several
primary computers)■ Deployable with commodity PC servers
■ Server integration solutions combining high-availability and resource utilization■ Highly reliable virtual server hosting services at data centers■ Highly reliable thin client services
*1 VM: Virtual Machine*2 OS: Operating System*3 Windows is a registered trademark of Microsoft Corporation in the U.S. and other countries.*4 Linux is a registered trademark of Linus Torvalds in the U.S. and other countries.*5 Xen is a trademark of Citrix Systems, Inc. and/or one or more of its subsidiaries, and may be
registered in the U.S. Patent and Trademark Office and in other countries.
Virtualization technology Fault tolerant Open source
NTT Cyber Space Laboratories
Linux
Services continuewithout interruptions
Reliable!Services don’t stop even if
hardware failure occurs
Convenient!Independent of
application software or OS Kemari
Global-scale server farm
CPU pool Memory pool Storage poolCache poolUbiquitous virtual
resources
Execution environment
User
High-availabilityvirtual server
Windows Solaris etc
Features of Kemari
Provides reliable virtual resources quickly and flexibly
Virtualization in sense of time and space
H/W Failure
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Browser
Operations Software
Copyright © 2009 NTT
NTT Research and Development 2009 Review of Activities
What’sHot in R&D Terminal, Software Technologies
Business Process Optimization Support Tool “BPOST”
Overview
Features
Application scenarios
BPOST reconstructs and visualizes actual operation procedures (i.e., businessprocesses) based on operation logs stored on business systems in order to supportanalysis from various viewpoints. Since operation logs directly reflect actual operations,BPOST makes it possible to continuously visualize objective and exhaustive businessprocesses at low cost. As a result, we can achieve timely and appropriate improvementof business processes and considerable cost reduction.
■ Complex operations straddling multiple departments and systems can be automaticallyreconstructed from operation logs
■ Business processes can be compared (comparative viewpoint: actual process/standardprocess, interorganizations, time series)
■ Business processes can be automatically classified according to their similarity■ Causes of business-process inefficiency can be investigated from various angles by
combining business-process analysis and statistical analysis■ By formatting logs, BPOST is applicable to various business areas without reconfiguring
target systems
■ Supporting business-process re-engineering in their own businesses (intra-companyapplication)
- Consulting support for business-process re-engineering projects in client companies- Continuous measurement of improvement effects on operations and systems- Ongoing understanding of retention rate after operation systems are changed
■ Applicable to internal-control (corporate government application)
Business process re-engineering Business process management Business process visualization
NTT Access Network Service Systems Laboratories
システムOperation systems A Bシステム Cシステム
■Business-process visualization
Coordinating delivery dates
Repetition process3 orders
75 orders
■Analyzing business process (focusing on characteristic operations)
Irregular process
Standard process
13 orders62orders
75 orders
Operation logs
BPOST
Business-process analysis
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January February March April
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Reconstructing business processes with operation logs
Clarifying business characteristics by comparing with standard process
Defining rules for formatting and implicating logs
Quantitative analysis Multifaceted analyses combining both analysis methods
Arbitrary operation systems
Registeringorders
Registering customers
Coordinating delivery dates
Registering B
Registering A
Registering C
Changing construction
dateChanging C
Fixing construction
date
Business-process analysis
Statistical analysis
Database for business analysis
Business database
Statistical analysis
Formatting log
Operation systems B
Operation systems C
Fixing construction
date
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Copyright © 2009 NTT
NTT Research and Development 2009 Review of Activities
What’sHot in R&D Terminal, Software Technologies
On-line Lightning Prediction System
Overview
Features
Application scenarios
Damage due to lightning exceeds 100 billion yen per year in all of Japan, and it is a majorproblem in the maintenance of the NTT Group’s telecommunication facilities, too.Lightning is also a concern for leisure and sports activities and outdoor workers, being
one major threat to human life. This on-line lightning prediction system addresses thatrisk by providing information on lightning strikes 10 to 30 minutes in advance, thusallowing time for preparation and calm response.
■ Prediction of lightning strikes 10 to 30 minutes in advance■ Spatial resolution of 1 to 5 km (currently run with 2.5 or 5 km)■ Update by repeating the computations every 10 minutes and issue the results over the
Internet or by mobilephone■ Uniform coverage of the entire nation
■ Utilize the prediction information for call centers and deployment for facility maintenancepersonnel
■ Application and support for telecom facilities, light electrical equipment, power suppliesand factory process management and so on
■ Alarms for common customers, recreation facilities, outdoors workers, school commuters,and so on
Lightning prediction Lightning damage countermeasures Disaster information
NTT Energy and Environment Systems Laboratories
Receive weather dataweather radar data(10 minutes intervals)mesoscale GPV-data
Issue lightning predictiondata (10 minute intervals)
Thundercloud prediction
Risk estimation
On-line Lightning Prediction System
Cloud movement predictionfrom image processing
Weather radar image
Prediction 10 to 30 minutes later
Prediction of cloud movement from the two most recent images Stability of the
atmosphere
Risk estimation
Prediction of lightning strike based on many features
Prediction of lightning strikebased on statistical processing
Machinelearning
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Lightning PredictionSystem