Calculating CVaR and bPOE for common probability distributions with application to portfolio optimization and density estimation

Norton, Matthew; Khokhlov, Valentyn; Uryasev, Stan

doi:10.1007/s10479-019-03373-1

Cited by 41 publications

(24 citation statements)

References 14 publications

(19 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…4 An alternative measure, which is indeed coherent and more reliable than VaR is the so-called CVaR. It is presented as [14,Prop. 15]…”

Section: Extreme Aoi Statisticsmentioning

confidence: 99%

Extreme Age of Information for Wireless-Powered Communication Systems

Miridakis¹,

Zheng²,

Tsiftsis³

et al. 2022

Preprint

View full text Add to dashboard Cite

The extreme or maximum age of information (AoI) is analytically studied for wireless communication systems. In particular, a wireless powered single-antenna source node and a receiver (connected to the power grid) equipped with multiple antennas are considered when operated under independent Rayleigh-faded channels. Via the extreme value theory and its corresponding statistical features, we demonstrate that the extreme AoI converges to the Gumbel distribution whereas its corresponding parameters are obtained in straightforward closed-form expressions. Capitalizing on this result, the risk of the extreme AoI realization is analytically evaluated according to some relevant performance metrics, while some useful engineering insights are manifested. Index TermsAge of information (AoI), extreme value theory, low-latency, wireless power transfer. I. INTRODUCTIONAge of information (AoI) represents an insightful performance metric for wireless communication systems, which indicates the timeliness of data delivery. Doing so, it has numerous applications in a set of various recent and upcoming real-time networking paradigms, e.g., Internet-of-things, vehicular and machine-type communications, healthcare, infrastructure and

show abstract

“…4 An alternative measure, which is indeed coherent and more reliable than VaR is the so-called CVaR. It is presented as [14,Prop. 15]…”

Section: Extreme Aoi Statisticsmentioning

confidence: 99%

Extreme Age of Information for Wireless-Powered Communication Systems

Miridakis¹,

Zheng²,

Tsiftsis³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

“…It can be noted that superquantiles are fundamental building blocks for estimates of risk in finance [64] and engineering [65]. In finance, the superquantile has various names, such as expected tail loss [66], conditional value-at-risk (CVaR) [67][68][69][70] or tail value-atrisk [71], average value at risk [72], expected shortfall [73,74]. Subquantile is not such a widespread concept.…”

Section: Linear Form Of Quantile-oriented Sensitivity Indices-contrasmentioning

confidence: 99%

Global Sensitivity Analysis of Quantiles: New Importance Measure Based on Superquantiles and Subquantiles

Kala

2021

Symmetry

View full text Add to dashboard Cite

The article introduces quantile deviation l as a new sensitivity measure based on the difference between superquantile and subquantile. New global sensitivity indices based on the square of l are presented. The proposed sensitivity indices are compared with quantile-oriented sensitivity indices subordinated to contrasts and classical Sobol sensitivity indices. The comparison is performed in a case study using a non-linear mathematical function, the output of which represents the elastic resistance of a slender steel member under compression. The steel member has random imperfections that reduce its load-carrying capacity. The member length is a deterministic parameter that significantly changes the sensitivity of the output resistance to the random effects of input imperfections. The comparison of the results of three types of global sensitivity analyses shows the rationality of the new quantile-oriented sensitivity indices, which have good properties similar to classical Sobol indices. Sensitivity indices subordinated to contrasts are the least comprehensible because they exhibit the strongest interaction effects between inputs. However, using total indices, all three types of sensitivity analyses lead to approximately the same conclusions. The similarity of the results of two quantile-oriented and Sobol sensitivity analysis confirms that Sobol sensitivity analysis is empathetic to the structural reliability and that the variance is one of the important characteristics significantly influencing the low quantile of resistance.

show abstract

“…is the expected travel time for r when violating the travel delay constraint, and (π) is the travel distance of route π. Using the formulation for the expected shortfall of the Normal distribution in [20], the term ES(r) can be computed as:…”

Section: Profit Optimizationmentioning

confidence: 99%

Vehicle Dispatch in On-Demand Ride-Sharing with Stochastic Travel Times

Parker

Hao

2021

2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

View full text Add to dashboard Cite

On-demand ride-sharing is a promising way to improve mobility efficiency and reliability. The quality of passenger experience and the profit achieved by these platforms are strongly affected by the vehicle dispatch policy. However, existing ride-sharing research seldom considers travel time uncertainty, which leads to inaccurate dispatch allocations. This paper proposes a framework for dynamic vehicle dispatch that leverages stochastic travel time models to improve the performance of a fleet of shared vehicles. The novelty of this work includes: (1) a stochastic on-demand ride-sharing scheme to maximize the service rate (percentage of requests served) and reliability (probability of on-time arrival); (2) a technique based on approximate stochastic shortest path algorithms to compute the reliability for a ride-sharing trip; (3) a method to maximize the profit when a penalty for late arrivals is introduced. Based on New York City taxi data, it is shown that by considering travel time uncertainty, ride-sharing service achieves higher service rate, reliability and profit.

show abstract

Calculating CVaR and bPOE for common probability distributions with application to portfolio optimization and density estimation

Cited by 41 publications

References 14 publications

Extreme Age of Information for Wireless-Powered Communication Systems

Extreme Age of Information for Wireless-Powered Communication Systems

Global Sensitivity Analysis of Quantiles: New Importance Measure Based on Superquantiles and Subquantiles

Vehicle Dispatch in On-Demand Ride-Sharing with Stochastic Travel Times

Contact Info

Product

Resources

About