@misc{miis71,
           title = {Enhanced Leak Detection},
          author = {Laura Bader and John Billingham and Daniel Callahan and Florin Catrina and David Edwards and Joseph Fehribach and Simon Gemmrich and Kamyar Hazaveh and Katharine Johnson and Richard Moore and Andrew Mykrantz and Peng Ni and Joel Phillips and Burt Tilley and Kimberly Ware and Suzanne Weekes},
            year = {2005},
             url = {http://www.maths-in-industry.org/miis/71/},
        abstract = {A key requirement for Veeder-Root?s Enhanced Leak Detection System is that it be able to test in situ for the presence of leaks at gasoline dispensing facilities. Aside from the obvious issues of safety and lost product, this functionality is obligatory for compliance with environmental standards mandated by federal and state oversight bodies, such as the California State Water Resources Control Board (SWRCB). The SWRCB demands a testing procedure that includes conditions as close to operational as possible, while still using environmentally safe gases as a test fluid. Although the test parameters (e.g., pressure) are allowed to deviate from operating conditions in order to facilitate the test procedure, a prescribed rescaling of the test thresholds must then be applied to account for the deviation. Whether the test is run at operation conditions or in a slightly different parameter regime, the fact that the testing must be done on the product and return lines after installation at a service station presents significant challenges in devising an effective test strategy. }
}