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Posts Tagged ‘Rafael López-Guerrero’

Tas Moses software over WiRRSiP:The actuarial revolution for insurance companies.

July 12, 2009 1 comment
Insurance Busines Intelligence over Wirrsip

Insurance Busines Intelligence over Wirrsip

The Tillinghast business of Towers Perrin recently released a new actuarial software application, TAS-MoSes, to help insurers and financial services companies gain competitive advantage and satisfy forthcoming regulatory requirements. The unmatched comprehensive functionality in TAS-MoSes helps these companies save time and money in arriving at a complete solution. Because it is developed and supported by Tillinghast, the world’s largest actuarial practice focused on insurance, TAS-MoSes gives insurers confidence in its trustworthy methodology. Tas MoSes, goes over WiRRSip, and converges, so just the same Scheme than financial’s should apply.

“TAS-MoSes offers exciting new capabilities to help companies better manage their business”, stated Tony Dardis, leader of the software practice in the Americas. “Enhanced goal seeking, stochastic pricing and principles-based approaches to valuation are just a few examples of how TAS-MoSes will help our clients meet the challenges posed by increasing demands for sophisticated financial modelling.”

 “Our clients look to us to provide high-quality solutions using reliable techniques that they can trust”, stated Jack Gibson, managing principal of Tillinghast’s North America Life Practice. “TAS-MoSes represents a significant investment by Towers Perrin to help our clients stay at the forefront of innovation in managing risk and capital.”

 TAS-MoSes provides comprehensive actuarial analysis and reporting for typical life insurance and annuity products marketed in the U.S. This application can be used for a variety of tasks, including product development, pricing, valuation, cash flow testing, liability and asset/liability modelling on both a statutory and GAAP basis.

 TAS-MoSes software uses the MoSes platform, a pre-eminent financial modeling software platform offered by Tillinghast and used by leading insurers around the world. MoSes applications are fully transparent, allowing insurers to see the actual code used to make the calculations and, in turn, to trace the calculations and ease auditability. The MoSes platform also supports distributed processing and Grid computing technology to provide scalability for very large projection tasks.

 “We are on a journey towards ever more powerful enterprise-ready solutions that our clients will need to meet future requirements for robust functionality, speed, scalability and control”, stated Mike Oxley, global leader of the software practice. “TAS-MoSes is an important milestone along this path, and we look forward to working with companies to help them realize the benefits of this powerful solution and prepare themselves for the future.” 

“TAS-MoSes offers exciting new capabilities to help companies better manage their business”, stated Tony Dardis, leader of the software practice in the Americas. “Enhanced goal seeking, stochastic pricing and principles-based approaches to valuation are just a few examples of how TAS-MoSes will help our clients meet the challenges posed by increasing demands for sophisticated financial modelling.”

 “Our clients look to us to provide high-quality solutions using reliable techniques that they can trust”, stated Jack Gibson, managing principal of Tillinghast’s North America Life Practice. “TAS-MoSes represents a significant investment by Towers Perrin to help our clients stay at the forefront of innovation in managing risk and capital.”

 TAS-MoSes provides comprehensive actuarial analysis and reporting for typical life insurance and annuity products marketed in the U.S. This application can be used for a variety of tasks, including product development, pricing, valuation, cash flow testing, liability and asset/liability modelling on both a statutory and GAAP basis.

 TAS-MoSes software uses the MoSes platform, a pre-eminent financial modeling software platform offered by Tillinghast and used by leading insurers around the world. MoSes applications are fully transparent, allowing insurers to see the actual code used to make the calculations and, in turn, to trace the calculations and ease auditability. The MoSes platform also supports distributed processing and Grid computing technology to provide scalability for very large projection tasks.

 “We are on a journey towards ever more powerful enterprise-ready solutions that our clients will need to meet future requirements for robust functionality, speed, scalability and control”, stated Mike Oxley, global leader of the software practice. “TAS-MoSes is an important milestone along this path, and we look forward to working with companies to help them realize the benefits of this powerful solution and prepare themselves for the future.”

Let’s check the Convergent Data Modelling, Virtual, Interactive, Gathering, Processing and Segmental, Web Based System Integrator Software for IPRDTV (WISVISPRIT). Going on Tas MoSeS, actuarial’s can converge, on IPRDTV-WiRRsiP scenario. WiMaX, can apply, better than LTE here. (2010 & 2012 perspectives and Trends on financials).
Based on next financial tools generation, over IP Convergence
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Let’s talk about WiRRsiP

July 3, 2009 1 comment

Before answering what is wirrsip question, first I need you to imagine something that could make it be possible that in some way, made one unified signal just when you move on wheels or when you travel.

wirrsip devices, are something, very new. It converges with everything

wirrsip devices, are something, very new. It converges with everything

Let’s go step by step. WIRRSIP is something very, very new, so there are some confidential information, that can’t be shared yet. In fact, I will select, as I told you before part of my team from this Group.

So all the “in a future developed” information will be shared with that team when moment comes.
Be sure of one think. We have thusands of stakeholders looking us, just know.

On the other hand, I want you to investigate, as this group is our prime e-learning.

First one question…¿Difference on Protocol and Device? (I prefer to use Disposititve than Device because Wirrsip Is Both).

Second..we need a plasticine.
Third. Sectors. Think of what sectorial applications will have.
Fourth.Your  business will go just where and when you go, and everybody will be able to admin its own website, domain, telephone and your domain, web, phone, Tv etc…will be as Ashishrohilla.com or myname.com , even your Passport, and whatever you could imagine. Every hardware, will work with that same IT, will reduce costs, and optimize time and goes with you all the time, as your i-pod, cel or dvd,radio..etc…http://www.wirrsip.es There, you will find a link with some basical technical information, but of course that’s public.

First stage on wirrsip was

But this is only the basic about WIRRSIP protocol.

  • Now how it converges…

Protocol Description:
Player-Tuner and Radio Frequency Digital Video, with a display reading Globally Interoperable, Wireless and convergent, which receives any data via a packet-switched network, and translates them to sound and / or Video as well as DTT.
Radio Data System is a standardization that lets you send data by the inaudible signal from a radio station, normally the FM, which are reflected in the screen (display) of radio equipment. It is used in Europe, although in North America use a very similar RBDS (Radio Broadcast Data System).
When hablmos of RRS + RBDS (We therefore Player Radio Tuner with Display Broadcast) or read labels.
When you talk about IP, we refer to:
The Internet Protocol (IP, for its acronym in Spanish Internet Protocol) is not a protocol designed to link used by both the origin and the destination for communication of data over a packet-switched network.
Aggregation: RRSIP (RRS + IP + RBDS)
When we speak of technically WI in WIRVDSIP has three implications:

1st .- Worldwide Interoperability: (World Interoperability)
2nd .- Wireless: wireless technologies.
3rd .- Convergence. (Converges using WiMAX technology) .

This access technology transforms voice and data signals into radio waves within this band of frequencies. It is based on OFDM, and with 256 can cover an area of 48 kilometers without allowing the connection line view, that is obstruction, with the capacity to transmit data at a rate of up to 75 Mbps with a spectral efficiency of 5.0 bps / Hz and will support thousands of users with a scalable channel 1.5 MHz to 20 MHz.

This standard supports service levels (SLAs) and Quality of Service (QoS).
Finally, add: WIRVDSIP (RRS RBDS + + IP + WiMAX).
a.1) .- A description of technical elements for the team:
A.1.1) .- Common elements:
Technical standards of the common elements:
RRS + RBDS+DTVDS (last 8/08/2008 on addition).

WIRVDSIP, WIMAX-LTE Agregation to:

IEEE 802.16 Published Standards and Drafts

Active Standards
• IEEE Std 802.16-2004, as amended by
• IEEE Std 802.16g-2007(amendment to IEEE 802.16)
• IEEE Std 802.16f-2005(amendment to IEEE 802.16)
• IEEE Std 802.16e-2005(amendment to IEEE 802.16)
• IEEE Std 802.16-2004/Cor1-2005(corridendum to IEEE 802.16, published along with IEEE 802.16e-2005)
• IEEE Std 802.16.2-2004
• IEEE Std 802.16/Conformance01-2003
• IEEE Std 802.16/Conformance02-2003
• IEEE Std 802.16/Conformance03-2004
• IEEE Std 802.16/Conformance04-2006
• IEEE Std 802.16k-2007

Superceded Standards
• IEEE Std 802.16-2001
• IEEE Std 802.16a-2003
• IEEE Std 802.16c-2002
• IEEE Std 802.16.2-2001