2021
DOI: 10.1007/s13369-021-06009-4
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An Effective Hash-Based Assessment and Recovery Algorithm for Healthcare Systems

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Cited by 21 publications
(19 citation statements)
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“…For example, when the number of transactions that need recovery increase from 5 to 25, our algorithm execution time increases from 0.00012 ms to 0.001 ms, which is the same time needed by [25]. However, the execution time of the recovery algorithm presented in [24] increases from 0.0002 ms to 0.0011 ms.…”
Section: Performance Results and Analysis The Recoverymentioning
confidence: 92%
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“…For example, when the number of transactions that need recovery increase from 5 to 25, our algorithm execution time increases from 0.00012 ms to 0.001 ms, which is the same time needed by [25]. However, the execution time of the recovery algorithm presented in [24] increases from 0.0002 ms to 0.0011 ms.…”
Section: Performance Results and Analysis The Recoverymentioning
confidence: 92%
“…Studying the results, we can conclude that our assessment algorithm outperforms the two models based on linked lists and two-dimensional arrays. However, our model has a similar performance as the model presented in [25], which also relies on the hash table for storing transaction dependencies. For example, when the ID of the attacker is 100, the execution time of our damage assessment algorithm is 0.3 μs (microsecond), which is almost equal to the execution time of the proposed algorithms in [24] and [25].…”
Section: Performance Results and Analysis Of The Damage Assessment Al...mentioning
confidence: 99%
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