Over the past two decades, there has been a step-function in the scientific understanding of natural hazards, from earthquakes to hurricanes and other climatic perils. Yet most of the use cases for this knowledge have centered around the research or forecasting communities, involving highly specialized computing and scientific resources. RMS, since spinning out from Stanford University in 1989, has built its business delivering commercially relevant catastrophe modeling software and analytics to the global financial services industry, enabling business practitioners in the re/insurance sector and investors in catastrophe-linked securities to quantify, manage, and hedge their risks to these perils throughout the world.
In their talk, Hemant and Philippe discuss these business centric use cases, the modeling approaches behind them, and how the revolution in commercially available and scalable compute and analytic technologies are bringing ‘big science’ out of the lab and enabling corporations to incorporate these insights to the heart of their business processes and workflows.
36. What’s next for RMS(one)
A reference database of subjects at risk
An extensible exposure mgt system
An ecosystem of models
A generic risk exploration system
A communication platform
Soil map area is about 5 miles E-W by 4.6 N-SDistance to faults: 4.2 miles to the San Andreas (SW)2 miles to Monte Vista-Shannon fault (SW). This one is a little dubious as to its activity level, however, so best to focus on SAFZ.15 miles to Hayward (NE)Area of better soils to the southeast on the map are the low hills near their office. Site photo from http://www.loopnet.com/Attachments/A/4/B/xy_A4B5D2D4-F087-416C-97CC-36E653530874__.jpg
RMS catastrophe models incorporate the latest science, over 20 years of dedicated catastrophe risk research and development, and partnerships with local institutions and leading regional experts. Catastrophe events are generated using RMS supercomputers and advanced numerical modeling on global simulation platforms.We are committed to providing our clients with the best level of product support and client service. RMS clients have access to a wide array of resources and expertise, from dedicated account representatives, to scientific and technical experts, to unparalleled training and documentation.
Navigating the Risk Landscape for Over 20 Years
Europe flood is one of the first models that will showcase the benefits of HD-simulation. This video a simulation of the weather over Europe over the course of several days. Blue colors indicate areas of high rainfall.Flood modeling at high-resolution, on such a large scale is not possible on any of todays platforms. The RMS europe flood model will cover 13 countries, on a single event set, allowing you to assess correlation between risks that are far away from each other. This matters, because of the length of the european rivers, which can flow through multiple countries. By starting with rainfall, and modeling how that rainfall transforms to runoff and moves across the landscape, including the impacts of topography, soil type, temperature, season, evaporation, allows us to model the probability of flooding from rivers as well as flash floods, and the impact of snowfall and snowmelt, in summer and in winter, and account for potential clustering of events when the jet stream gets locked in place.The model can be used for both portfolio management and underwriting individual risks. With the time-based simulation, you can model important policies such as the hours clause, properly, by defining your own time windows relative to the event losses through time.
Underwriting: Field offices enter exposure data and review account analysis using RiskBrowser web interface. Underwriter investigates available capacity and prices risk. Central database is updated with exposure and account level results.Portfolio Management: Using RiskLink, home office performs analysis of portfolio exposure to identify key accumulations, allocate capacity, determine reinsurance needs, and benchmark risk against capital requirements.Risk Transfer: Brokers work with home office to structure reinsurance program and prepare exposure data. Reinsurers use RiskLink to price risk using detailed or aggregated exposure data and industry benchmarks.
Dynamic portfolio management – A Key aspect of RMS(one)
Drill down into your book in real time by region, line of business, legal entity, and other customizable hierarchiesView a multitude of metrics (including exposure, modeled losses, profitability indicators, benchmarks, and capacity utilization) all in one place and investigate key drivers of risk and change
Interact with multiple EP (exceedance probability) curves to gain intuition around the events and contracts that drive different parts of the curve for a given portfolio and the associated sensitivitiesCompare EP curves and investigate the drivers of change between different points in time
Propose changing the format of this case study section – frame it as Problem & SolutionThis is the problem slideBadly hit in sandy (the image should say this)Problem criteria wereNeed Efficient cover, having failed to find capacity in the reinsurance marketSimple index in order that investors could take the risk without having to underwrite the complex portfolioSpeed of settlement (need a third one – any better ideas?!)
Metrocat triggered by simple coastal flood measurements at tide gauges in the NYC area. A very simple trigger, but required the most advanced coastal flood modelling to make this possible.
MTA found that capacity dried up in the reinsurance market after sandy. They needed an efficient way to access capital, and found the ILS market ready to step in, using a parametric index. The deal won the Bond Buyer Magazine non-traditional deal of the year.
Navigating the Risk Landscape for Over 20 Years
Cyclododecatriene (CDT) is a key component in a nylon resin called PA12, which is used to make a specialized plastic.The plastic is used in auto fuel lines and brake lines. It is also a component in solar cell, pipelines, sporting good and household items.Evonik accounts for about 50 percent of the world’s CDT production, which estimated 40% of the world's PA12 capacityhttp://www.huffingtonpost.com/2012/04/17/pa12-resin-shortage-auto-car-production_n_1430884.htmlCyclododecatriene (CDT) is a key component in a nylon resin called PA12, which is used to make a specialized plastic.The plastic is used in auto fuel lines and brake lines. It is also a component in solar cell, pipelines, sporting good and household items.PA12 has been in short supply for about two years, as demand from the solar industry increased. The Evonik incident will worsen the shortage, which could hit every major automaker, Sharland said, executive director of the Automotive Industry Action Group.http://www.businessweek.com/news/2012-04-16/ube-says-it-s-receiving-resin-queries-after-evonik-blastEvonik, which is weighing an initial public offering of its stock by July 1, accounts for about 50 percent of the world’s CDT production, Ube’s Sumiyoshi said. The PA-11 resin can be used as a partial substitute for PA-12, Sumiyoshi said.http://www.icis.com/Articles/2012/04/30/9554265/news-focus-producers-scramble-to-provide-polyamide-12-alternatives-for-auto.htmlThe blast at Evonik Industries' cyclododecatriene (CDT) plant in Marl, Germany, has taken out an estimated 40% of the world's nylon 12 (also known as polyamide 12, or PA-12) capacity, leaving automotive customers scrambling to find alternatives. Now producers of polyamides are working with automakers to fill the void with alternatives.