FDR

(redirected from Fault Detection Rate)
AcronymDefinition
FDRFranklin Delano Roosevelt
FDRFoncière des Régions (French real estate investment trust company)
FDRFlight Data Recorder
FDRFalse Discovery Rate
FDRFixed Deposit Reciept
FDRForum Deutsches Recht (German: German Law Forum)
FDRFormal Dining Room
FDRFreedom Debt Relief (consumer finance)
FDRFahr Dynamik Regelung
FDRFull-Depth Reclamation (road resurfacing procedure)
FDRFondo di Rotazione (Italian: Revolving Fund)
FDRFull Dress Rehearsal (various organizations)
FDRFull Dress Rehearsal (performance)
FDRFinal Design Review
FDRFirst Degree Relative
FDRFrequency Domain Reflectometry
FDRFrente Democrático Revolucionario (Spanish: Democratic Revolutionary Front)
FDRFull-Depth Repair (pavement restoration technique)
FDRFirst Data Resources
FDRFirst Tier, Downstream or Related Entity (healthcare compliance)
FDRFlood Damage Reduction
FDRFlow Data Record
FDRFederal Dispute Resolution
FDRFinal Drive Ratio (automotive)
FDRFull Disclosure Report
FDRFront Desk Representative (various organizations)
FDRFranklyn D. Resorts (Jamaica)
FDRFace Down Records
FDRFlood Damage Rehabilitation (various organizations)
FDRFrequency Directed Run-Length
FDRForeign Disaster Relief
FDRFranklin Delano Romanowski (Seinfeld character)
FDRFraudulent Document Recognition (various organizations)
FDRFirearm Discharge Residue (forensic science)
FDRFailure Divergence Refinement
FDRFree Domain Radio (website)
FDRFlorida Department of Revenue (also seen as FDOR)
FDRFuture Digital Radio
FDRFlight Deck Resources (aviation; Irvine, CA)
FDRField Data Replicator (Vibration Research Corporation)
FDRFault Detection Rate
FDRFormal Design Review
FDRFinnish Depositary Receipt
FDRField Data Report
FDRFloating Drilling Rig
FDRFarnam Defensive Rifle
FDRFirst Day Return
FDRFuture Data Radio
FDRFailure Discrepancy Report
FDRFlight Data Review
FDRForce Distribution Report
FDRFunctional Design Requirement
FDRFast Dump and Restore (Innovation product)
FDRFrequency Dynamic Range
FDRFixed Directory Routing
FDRFrequency Domain Refractometer
FDRForward Door Relay
FDRForce Development Requirements
FDRFire Discharge Residual (firearms)
FDRFull-Duplex Relaying
References in periodicals archive ?
[20] proposed a flexible SRGM with imperfect debugging and error generation using a logistic function for the fault detection rate, which reflects the efficiency of the testing and removal team.
where M(t) is the expected number of faults detected in the time interval (0, t], a denotes the number of total faults, and r(t) is a nonnegative function representing the fault detection rate per remaining fault at testing time t.
The expression for the mean fault detection rate per remaining fault using the generalised G-O model is given by [41]
It is noted here that the fault detection rate model (12) describes an imperfect debugging process for constant k.
* The event fault detection rate, represented by EFDR, indicates the ratio between the number of nodes that accurately identified a fault and the total number of faulty nodes.
One can be noticed from the table that (a) the ICA processing can efficiently prove the fault detection rate owning to its reliable feature extraction ability, and (b) the proposed ICA-Wavelet-NN method is better than the ICA-Wavelet-HMM.
It can be seen in the table that after the ICA processing both the Wavelet-NN and the Wavelet-HMM have dramatically improved the fault detection rate with a lift of 21.0 % or better.
(1) Fault detection rate (FDR): the ratio of fault states that can be detected in a given fault states set:
Moreover, the requirement of the fault detection rate (FDR) and fault isolation rate (FIR) is set [greater than or equal to] 90%, and the expected fault detection (isolation) error is set less than 10%.
Clearly, it gives us these solutions for fault diagnosis: (1) the test-nodes set is [T.sub.1], [T.sub.5] or [T.sub.1], [T.sub.6]; (2) and the fault detection rate (FDR) can be 100%, while the fault isolation rate is (FIR) 100%.
In the comparison, the performance is measured by fault detection rates.
Fault detection rates of each method in the Tennessee Eastman process Faults PCA Modified ICA [T.sup.2] SPE [T.sup.2] SPE 1 99 100 100 100 2 98 96 98 98 3 2 1 1 1 4 6 100 65 96 5 24 18 24 24 6 99 100 100 100 7 42 100 100 100 8 97 89 97 98 9 1 1 1 2 10 31 17 70 64 11 21 72 43 66 12 97 90 98 97 13 93 95 95 94 14 81 100 100 100 15 1 2 1 2 16 14 16 76 73 17 74 93 87 94 18 89 90 90 90 19 0 29 25 29 20 32 45 70 66 Faults KPCA KICA [T.sup.2] SPE [T.sup.2] SPE 1 100 100 100 100 2 98 98 98 98 3 4 5 1 3 4 9 100 81 100 5 27 25 25 28 6 99 100 100 100 7 100 100 100 100 8 97 96 97 98 9 4 4 1 3 10 43 51 81 78 11 24 81 58 77 12 98 97 99 99 13 94 95 95 95 14 79 100 100 100 15 8 6 3 5 16 30 52 77 87 17 74 95 91 97 18 90 90 89 91 19 3 49 70 85 20 41 52 50 65
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