Space/time trade-offs in hash coding with allowable errors
about
HIVE-hexagon: high-performance, parallelized sequence alignment for next-generation sequencing data analysisCompressive biological sequence analysis and archival in the era of high-throughput sequencing technologiesA graph-based approach to construct target-focused libraries for virtual screeningA tamper-resistant and portable healthcare folderAn Introduction to Programming for Bioscientists: A Python-Based PrimerMusket: a multistage k-mer spectrum-based error corrector for Illumina sequence data.These are not the k-mers you are looking for: efficient online k-mer counting using a probabilistic data structure.Privacy preserving probabilistic record linkage (P3RL): a novel method for linking existing health-related data and maintaining participant confidentiality.Konnector v2.0: pseudo-long reads from paired-end sequencing data.Spaced Seed Data Structures for De Novo Assembly.Bloom Filter Trie: an alignment-free and reference-free data structure for pan-genome storageA comparative study of k-spectrum-based error correction methods for next-generation sequencing data analysis.Using reference-free compressed data structures to analyze sequencing reads from thousands of human genomesPrivacy-Preserving Integration of Medical Data : A Practical Multiparty Private Set Intersection.Privacy-preserving record linkage using Bloom filters.RNA-Skim: a rapid method for RNA-Seq quantification at transcript level.An approach for removing redundant data from RFID data streams.BLESS: bloom filter-based error correction solution for high-throughput sequencing reads.Collusion-aware privacy-preserving range query in tiered wireless sensor networksTurtle: identifying frequent k-mers with cache-efficient algorithms.DIDA: Distributed Indexing Dispatched Alignment.Achieving network level privacy in Wireless Sensor NetworksSubtractive assembly for comparative metagenomics, and its application to type 2 diabetes metagenomes.LINKS: Scalable, alignment-free scaffolding of draft genomes with long reads.Xander: employing a novel method for efficient gene-targeted metagenomic assembly.Scaling metagenome sequence assembly with probabilistic de Bruijn graphs.EPPS: Efficient and Privacy-Preserving Personal Health Information Sharing in Mobile Healthcare Social NetworksA Review of Bioinformatics Tools for Bio-Prospecting from Metagenomic Sequence DataFast search of thousands of short-read sequencing experimentsIn-network processing of joins in wireless sensor networks.Biosequence Similarity Search on the Mercury System.A Novel Accuracy and Similarity Search Structure Based on Parallel Bloom Filters.novoBreak: local assembly for breakpoint detection in cancer genomes.RIDES: Robust Intrusion Detection System for IP-Based Ubiquitous Sensor Networks.A CMAC-based scheme for determining membership with classification of text stringsSocial Media Listening for Routine Post-Marketing Safety Surveillance.Efficient hash tables for network applications.BLOOM: BLoom filter based oblivious outsourced matchings.Alignment-free inference of hierarchical and reticulate phylogenomic relationships.Kollector: transcript-informed, targeted de novo assembly of gene loci.
P2860
Q21559461-4783F923-04EE-4D9E-A341-58453E861143Q27021183-46063183-1A12-4B46-B0D7-78626227BF6FQ27902353-A642FC8F-0781-47F8-A178-D1361804DF88Q28757830-5B2A9868-011B-4E79-92DF-B1F8D888450EQ30276646-4FE1813E-BBCE-4DB8-BC4A-55BBF12D542AQ30579672-87B5DDB1-DA01-43D1-A9FD-2EECA4964FD4Q30838670-CB5B93BB-838F-4445-9702-903BD19D84C4Q30961408-0E65C1F8-7BFC-4439-B701-70F8B62556FFQ30996478-2BC0092E-9E8D-4EB2-B172-FD7BA9313BCCQ31018280-B9364BF6-F759-41C8-A69D-68A1E51C4A7DQ31079446-13E96620-219A-4D8E-BE6C-7AA70BB7D857Q31117768-3D7F215A-FDA8-45FF-8B28-8ADD78883915Q31149639-0CF0C7B1-4575-409C-9283-EA54CA445AC7Q31154964-05B4C519-3F4A-452C-A7E7-4D4F6006AC7EQ33496596-156A8D08-2D69-4645-A950-BCB08514F472Q33760378-476CE5AD-80CB-44AC-AB2C-F5F09C3390A9Q34098618-14E7D512-5F61-490F-B9D7-6504C040F5E7Q34399477-5F51697F-8DF2-4F84-961B-02957E57B3E4Q34985050-6CDC1D16-1E04-4C51-9B94-F6BDE01A2CE9Q35117458-BFA6236D-9C55-4EE7-A0EF-31D09261EEBAQ35617757-5C10A78C-7493-4E51-801B-27E4DE666803Q35689850-92877841-5737-47E6-B619-64AFD1F7ED44Q35829936-01D2087F-199C-4DF2-A66D-23D2C8A379C5Q35913741-4460FA03-6256-4186-99B3-D1D8F5432781Q35920493-FA5000E3-E525-4AF8-8C8B-3DCDD53B468EQ36170818-306F79B3-AABF-42DE-9CC6-3605ED38919FQ36176268-0843578D-79AC-4BB8-A91F-D8AC4E5FCED7Q36315664-EE055B2F-C601-43AB-A6A8-94AEE11E0404Q36719760-9F409C7C-6E1B-44FE-9585-FF8DE0BB8584Q36858238-1E690A0C-31DC-4529-9BB1-54187C470695Q36930748-BD4E0382-B797-4B8E-A708-3F8B6AE4F000Q37521870-188DB8CC-62C8-4D39-875F-BA3BEF10EFF0Q37544937-6D0D8D23-180F-45D4-AECA-4082D71FDA8EQ38384451-6665D858-7835-4831-BFAF-88E981B163B2Q38407698-6279224E-EDD2-431E-A71F-96B44C7CFB7AQ38410148-8ADFABFF-F76C-4716-B8DF-A8D8AE224352Q38413530-DC13EB04-3C1E-4892-B352-7A8043B9BE1CQ38635275-9785B38F-5372-4264-A924-96407BE942D5Q38695928-820C2DA6-60EF-4833-871B-4CB89A5AACDCQ38967850-841B6F39-23DD-4655-AF47-3F6C5F32A2EC
P2860
Space/time trade-offs in hash coding with allowable errors
description
im Juli 1970 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 1970
@uk
name
Space/time trade-offs in hash coding with allowable errors
@en
Space/time trade-offs in hash coding with allowable errors
@nl
type
label
Space/time trade-offs in hash coding with allowable errors
@en
Space/time trade-offs in hash coding with allowable errors
@nl
prefLabel
Space/time trade-offs in hash coding with allowable errors
@en
Space/time trade-offs in hash coding with allowable errors
@nl
P356
P1476
Space/time trade-offs in hash coding with allowable errors
@en
P304
P356
10.1145/362686.362692
P407
P577
1970-07-01T00:00:00Z