default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDAbhyudai Singh
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[j21]César Nieto
, Cesar Augusto Vargas Garcia, Abhyudai Singh:
A Moments-Based Analytical Approach for Cell Size Homeostasis. IEEE Control. Syst. Lett. 8: 2205-2210 (2024)- [c90]Zahra Vahdat, Oliver Gambrell, Abhyudai Singh:
Negative Feedback Regulation via an Autapse Enhances Neuronal Firing Precision. ACC 2024: 3941-3946 - 2023
- [j20]Pavol Bokes, Anna Hlubinová, Abhyudai Singh:
Reversible Transitions in a Fluctuation Assay Modify the Tail of Luria-Delbrück Distribution. Axioms 12(3): 249 (2023) - [j19]Candan Çelik, Pavol Bokes, Abhyudai Singh:
Translation regulation by RNA stem-loops can reduce gene expression noise. BMC Bioinform. 24-S(1): 493 (2023) - [c89]Iryna Zabaikina, Zhanhao Zhang, César Nieto, Pavol Bokes, Abhyudai Singh:
Amplification of noisy gene expression by protein burden: An analytical approach. ACC 2023: 2861-2866 - [c88]Sayeh Rezaee, César Nieto, Zahra Vahdat, Abhyudai Singh:
Stochastic dynamics of the logistic growth model subjected to environmental perturbations. CCTA 2023: 174-179 - [c87]Zhanhao Zhang, César Nieto, Abhyudai Singh:
Comparing Negative Feedback Mechanisms in Gene Expression: From Single Cells to Cell Populations. CDC 2023: 3744-3749 - [c86]Iryna Zabaikina, Pavol Bokes, Abhyudai Singh:
Joint Distribution of Protein Concentration and Cell Volume Coupled by Feedback in Dilution. CMSB 2023: 253-268 - [c85]Sayeh Rezaee, César Nieto, Abhyudai Singh:
Optimizing Precision in Cellular Clocks Through Self-Regulated Accumulation Of Molecules. ICSTCC 2023: 505-510 - 2022
- [j18]Chen Jia, Abhyudai Singh, Ramon Grima:
Characterizing non-exponential growth and bimodal cell size distributions in fission yeast: An analytical approach. PLoS Comput. Biol. 18(1) (2022) - [j17]Chen Jia, Abhyudai Singh, Ramon Grima:
Concentration fluctuations in growing and dividing cells: Insights into the emergence of concentration homeostasis. PLoS Comput. Biol. 18(10): 1010574 (2022) - [c84]César Nieto, Khem Raj Ghusinga, Cesar Vargas-García, Abhyudai Singh:
Threshold-crossing time statistics for size-dependent gene expression in growing cells. ACC 2022: 1341-1346 - [c83]Tarun Mahajan, Abhyudai Singh, Roy D. Dar:
Kinetic Constraints on Noise Reduction in Feedback Gene Regulatory Networks. ACC 2022: 1386-1391 - [c82]Zahra Vahdat, Abhyudai Singh:
Time triggered stochastic hybrid systems with nonlinear continuous dynamics. ACC 2022: 4888-4893 - [c81]Mohammad Soltani, Abhyudai Singh:
Using fluctuation statistics to infer random forces impinging on a nanosensor. CCTA 2022: 1300-1305 - [c80]Zahra Vahdat, Abhyudai Singh:
Frequency-dependent modulation of stochasticity in postsynaptic neuron firing times. CDC 2022: 635-640 - [c79]Supravat Dey, Cesar Augusto Vargas Garcia, Abhyudai Singh:
Sequestration-based feedback control of blood platelet levels. CDC 2022: 1930-1935 - [c78]César Nieto, César Vargas-García, Juan Manuel Pedraza, Abhyudai Singh:
Cell size control shapes fluctuations in colony population. CDC 2022: 3219-3224 - [c77]Michael M. Saint-Antoine, Ramon Grima, Abhyudai Singh:
Fluctuation-based approaches to infer kinetics of cell-state switching. CDC 2022: 3878-3883 - [c76]Tarun Mahajan, Michael M. Saint-Antoine, Roy D. Dar, Abhyudai Singh:
Limits on inferring gene regulatory networks from single-cell measurements of unstable mRNA levels. CDC 2022: 3884-3889 - [c75]Sayeh Rezaee, César Nieto, Abhyudai Singh:
Optimal network transmission to minimize state-estimation error and channel usage. ICSTCC 2022: 337-342 - [c74]César Nieto, Khem Raj Ghusinga, Abhyudai Singh:
Feedback strategies for threshold crossing of protein levels at a prescribed time. MED 2022: 170-175 - 2021
- [j16]Niccoló Totis, César Nieto, Armin Küper, Cesar Augusto Vargas Garcia, Abhyudai Singh, Steffen Waldherr:
A Population-Based Approach to Study the Effects of Growth and Division Rates on the Dynamics of Cell Size Statistics. IEEE Control. Syst. Lett. 5(2): 725-730 (2021) - [j15]Pavol Bokes, Abhyudai Singh:
A modified fluctuation test for elucidating drug resistance in microbial and cancer cells. Eur. J. Control 62: 130-135 (2021) - [j14]Saurabh Modi, Supravat Dey, Abhyudai Singh:
Noise suppression in stochastic genetic circuits using PID controllers. PLoS Comput. Biol. 17(7) (2021) - [j13]Pavol Bokes, Michal Hojcka, Abhyudai Singh:
MicroRNA Based Feedforward Control of Intrinsic Gene Expression Noise. IEEE ACM Trans. Comput. Biol. Bioinform. 18(1): 272-282 (2021) - [c73]Supravat Dey, Lee Tracey, Abhyudai Singh:
Role of intercellular coupling and delay on the synchronization of genetic oscillators. ACC 2021: 1917-1922 - [c72]Madeline Smith, Mohammad Soltani, Rahul V. Kulkarni, Abhyudai Singh:
Modulation of stochastic gene expression by nuclear export processes. CDC 2021: 655-660 - [c71]Candan Çelik, Pavol Bokes, Abhyudai Singh:
Protein Noise and Distribution in a Two-Stage Gene-Expression Model Extended by an mRNA Inactivation Loop. CMSB 2021: 215-229 - [c70]Zhanhao Zhang, Supravat Dey, Abhyudai Singh:
Role of periodic forcing on the stochastic dynamics of a biomolecular clock. ECC 2021: 824-829 - [c69]Supravat Dey, Sherin Kannoly, Pavol Bokes, John J. Dennehy, Abhyudai Singh:
Feedforward genetic circuits regulate the precision of event timing. ECC 2021: 2127-2132 - [c68]Zahra Vahdat, Khem Raj Ghusinga, Abhyudai Singh:
Comparing feedback strategies for minimizing noise in gene expression event timing. MED 2021: 450-455 - 2020
- [j12]Khem Raj Ghusinga, Andrew G. Lamperski, Abhyudai Singh:
Moment analysis of stochastic hybrid systems using semidefinite programming. Autom. 112 (2020) - [j11]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Time Delays in a Genetic Positive-Feedback Circuit. IEEE Control. Syst. Lett. 4(1): 163-168 (2020) - [c67]Zikai Xu, Khem Raj Ghusinga, Abhyudai Singh:
Noise analysis in biochemical complex formation from stochastically produced components. ACC 2020: 3737-3742 - [c66]Madeline Smith, Abhyudai Singh:
Noise suppression by stochastic delays in negatively autoregulated gene expression. ACC 2020: 4270-4275 - [c65]Supravat Dey, Abhyudai Singh:
Genomic decoy sites enhance the oscillatory regime of a biomolecular clock. ACC 2020: 5002-5007 - [c64]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Noise propagation in metabolic pathways: the role of growth-mediated feedback. CDC 2020: 4610-4615 - [c63]Abhyudai Singh, Brooks Emerick:
Hybrid systems framework for modeling host-parasitoid population dynamics. CDC 2020: 4628-4633 - [c62]Khem Raj Ghusinga, Abhyudai Singh:
Controlling event timing precision for gene expression with external disturbances. CDC 2020: 5867-5872 - [c61]Supravat Dey, Abhyudai Singh:
Propagation of stochastic gene expression in the presence of decoys. CDC 2020: 5873-5878 - [c60]Candan Çelik, Pavol Bokes, Abhyudai Singh:
Stationary Distributions and Metastable Behaviour for Self-regulating Proteins with General Lifetime Distributions. CMSB 2020: 27-43 - [c59]Zahra Vahdat, Karol Nienaltowski, Zia Farooq, Michal Komorowski, Abhyudai Singh:
Information processing in unregulated and autoregulated gene expression. ECC 2020: 258-263 - [c58]Iryna Zabaikina, Pavol Bokes, Abhyudai Singh:
Optimal bang-bang feedback for bursty gene expression. ECC 2020: 277-282 - [c57]James MacLaurin, Abhyudai Singh:
The Effect of Stochastic Bursting on Biological Clock Precision. ECC 2020: 1135-1140 - [c56]Yao Li, Cesar Augusto Vargas Garcia, Abhyudai Singh:
Stochastic stability of a cell cycle model with "silence period". ECC 2020: 1820-1825
2010 – 2019
- 2019
- [j10]Cesar Augusto Nieto-Acuna, Cesar Augusto Vargas Garcia, Abhyudai Singh, Juan Manuel Pedraza:
Efficient computation of stochastic cell-size transient dynamics. BMC Bioinform. 20-S(23): 647 (2019) - [j9]Mohammad Soltani, Abhyudai Singh:
Moment Analysis of Linear Time-Varying Dynamical Systems with Renewal Transitions. SIAM J. Control. Optim. 57(4): 2660-2685 (2019) - [j8]Andrew G. Lamperski, Khem Raj Ghusinga, Abhyudai Singh:
Analysis and Control of Stochastic Systems Using Semidefinite Programming Over Moments. IEEE Trans. Autom. Control. 64(4): 1726-1731 (2019) - [c55]Madeline Smith, Khem Raj Ghusinga, Abhyudai Singh:
Comparison of feedback strategies for noise suppression in protein level. ACC 2019: 1513-1518 - [c54]Supravat Dey, Abhyudai Singh:
Stochastic analysis of feedback control by molecular sequestration. ACC 2019: 4466-4471 - [c53]Saurabh Modi, Supravat Dey, Abhyudai Singh:
Proportional and derivative controllers for buffering noisy gene expression. CDC 2019: 2832-2837 - [c52]Zahra Vahdat, Zikai Xu, Abhyudai Singh:
Modeling and characterization of neuronal synapses using stochastic hybrid systems. CDC 2019: 4729-4734 - [c51]Michael M. Saint-Antoine, Abhyudai Singh:
Evaluating Pruning Methods in Gene Network Inference. CIBCB 2019: 1-7 - [c50]Pavol Bokes, Abhyudai Singh:
Cell Volume Distributions in Exponentially Growing Populations. CMSB 2019: 140-154 - [c49]Giulia Giordano, Abhyudai Singh, Franco Blanchini:
Analysis of coupled genetic oscillators with delayed positive feedback interconnections. ECC 2019: 674-679 - [c48]Pavol Bokes, Abhyudai Singh:
Noise induced bimodality in genetic circuits with monostable positive feedback. ECC 2019: 698-703 - [c47]Khem Raj Ghusinga, Vaibhav Srivastava, Abhyudai Singh:
Driving an Ornstein-Uhlenbeck Process to Desired First-Passage Time Statistics. ECC 2019: 869-874 - [c46]Pavol Bokes, Abhyudai Singh:
Controlling Noisy Expression Through Auto Regulation of Burst Frequency and Protein Stability. HSB 2019: 80-97 - 2018
- [j7]Atul Kakrana, Andrian Yang, Deepti Anand, Djordje Djordjevic, S. Deepthi Ramachandruni, Abhyudai Singh, Hongzhan Huang, Joshua Wing Kei Ho, Salil A. Lachke:
iSyTE 2.0: a database for expression-based gene discovery in the eye. Nucleic Acids Res. 46(Database-Issue): D875-D885 (2018) - [c45]Cenk Demir, Mohammad Soltani, Abhyudai Singh:
Prediction of Projectile Impact Point using Approximate Statistical Moments. ACC 2018: 1467-1472 - [c44]Saurabh Modi, Mohammad Soltani, Abhyudai Singh:
Linear Noise Approximation for a Class of Piecewise Deterministic Markov Processes. ACC 2018: 1993-1998 - [c43]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Noise propagation in feedback coupling between cell growth and metabolic activity. CDC 2018: 2679-2684 - [c42]Saurabh Modi, Abhyudai Singh:
Controlling organism size by regulating constituent cell numbers. CDC 2018: 2685-2690 - [c41]Zikai Xu, Mohammad Soltani, Abhyudai Singh:
Exact statistical moments of multi-mode stochastic hybrid systems with renewal transitions. CDC 2018: 3510-3515 - [c40]Alberto Carignano, Sumit Mukherjee, Abhyudai Singh, Georg Seelig:
Extrinsic Noise Suppression in Micro RNA Mediated Incoherent Feedforward Loops. CDC 2018: 4353-4359 - [c39]Cesar Augusto Vargas Garcia, Abhyudai Singh:
Elucidating Cell Size Control Mechanisms with Stochastic Hybrid Systems. CDC 2018: 4366-4371 - [c38]Mohammad Soltani, Abhyudai Singh:
Control Design and Analysis of a Stochastic Event-Driven System. CDC 2018: 5789-5794 - [c37]Pavol Bokes, Michal Hojcka, Abhyudai Singh:
Buffering Gene Expression Noise by MicroRNA Based Feedforward Regulation. CMSB 2018: 129-145 - [c36]Mohammad Soltani, Abhyudai Singh:
Linear piecewise-deterministic Markov processes with families of random discrete events. ECC 2018: 447-452 - [c35]Khem Raj Ghusinga, Andrew G. Lamperski, Abhyudai Singh:
Estimating stationary characteristic functions of stochastic systems via semidefinite programming. ECC 2018: 2720-2725 - [i4]Mohammad Soltani, Abhyudai Singh:
Moment analysis of linear time-varying dynamical systems with renewal transitions. CoRR abs/1804.10187 (2018) - 2017
- [j6]Mohammad Soltani, Abhyudai Singh:
Moment-based analysis of stochastic hybrid systems with renewal transitions. Autom. 84: 62-69 (2017) - [c34]Mohammad Soltani, Abhyudai Singh:
Stochastic analysis of linear time-invariant systems with renewal transitions. ACC 2017: 1734-1739 - [c33]Khem Raj Ghusinga, Abhyudai Singh:
Effect of gene-expression bursts on stochastic timing of cellular events. ACC 2017: 2118-2123 - [c32]Cesar Augusto Vargas Garcia, Carl Agbemabiese, Abhyudai Singh:
Optimal adsorption rate: Implications of the shielding effect. ACC 2017: 2140-2145 - [c31]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Noise propagation in a class of metabolic networks. CDC 2017: 447-452 - [c30]Joshua A. Blotnick, Cesar Augusto Vargas Garcia, John J. Dennehy, Ryan Zurakowski, Abhyudai Singh:
The effect of multiplicity of infection on the temperateness of a bacteriophage: Implications for viral fitness. CDC 2017: 1641-1645 - [c29]Khem Raj Ghusinga, Mohammad Soltani, Andrew G. Lamperski, Sairaj V. Dhople, Abhyudai Singh:
Approximate moment dynamics for polynomial and trigonometric stochastic systems. CDC 2017: 1864-1869 - [c28]Ximing Chen, Masaki Ogura, Khem Raj Ghusinga, Abhyudai Singh, Victor M. Preciado:
Semidefinite bounds for moment dynamics: Application to epidemics on networks. CDC 2017: 2448-2454 - [c27]Abhyudai Singh:
Noise mechanisms in synaptic transmission and their impact on spike-timing precision. CDC 2017: 5925-5930 - [i3]Mohammad Soltani, Abhyudai Singh:
Control design and analysis of a stochastic network control system. CoRR abs/1704.00236 (2017) - [i2]Cenk Demir, Abhyudai Singh:
Prediction and Control of Projectile Impact Point using Approximate Statistical Moments. CoRR abs/1710.00289 (2017) - [i1]Mohammad Soltani, Abhyudai Singh:
Linear piecewise-deterministic Markov processes with families of random discrete events. CoRR abs/1711.04884 (2017) - 2016
- [j5]Mohammad Soltani, Cesar Augusto Vargas Garcia, Duarte Antunes, Abhyudai Singh:
Intercellular Variability in Protein Levels from Stochastic Expression and Noisy Cell Cycle Processes. PLoS Comput. Biol. 12(8) (2016) - [c26]Mohammad Soltani, Thierry Platini, Abhyudai Singh:
Stochastic analysis of an incoherent feedforward genetic motif. ACC 2016: 406-411 - [c25]Khem Raj Ghusinga, Abhyudai Singh:
Optimal regulation of protein degradation to schedule cellular events with precision. ACC 2016: 424-429 - [c24]Andrew G. Lamperski, Khem Raj Ghusinga, Abhyudai Singh:
Stochastic optimal control using semidefinite programming for moment dynamics. CDC 2016: 1990-1995 - [c23]Mohammad Soltani, Abhyudai Singh:
Moment dynamics for linear time-triggered stochastic hybrid systems. CDC 2016: 3702-3707 - [c22]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Noise reduction for enzymatic reactions: A case study for stochastic product clearance. CDC 2016: 5851-5856 - [c21]Cesar Augusto Vargas Garcia, Mohammad Soltani, Abhyudai Singh:
Stochastic hybrid systems approach to modeling dynamics of cell size. CDC 2016: 5863-5868 - [c20]Jessica M. Conway, John J. Dennehy, Abhyudai Singh:
Optimizing phage λ survival in a changing environment: Stochastic model predictions. CDC 2016: 5881-5887 - 2015
- [j4]Bernie J. Daigle Jr., Mohammad Soltani, Linda R. Petzold, Abhyudai Singh:
Inferring single-cell gene expression mechanisms using stochastic simulation. Bioinform. 31(9): 1428-1435 (2015) - [j3]Niraj Kumar, Abhyudai Singh, Rahul V. Kulkarni:
Transcriptional Bursting in Gene Expression: Analytical Results for General Stochastic Models. PLoS Comput. Biol. 11(10) (2015) - [j2]Mohammad Soltani, Cesar Augusto Vargas Garcia, Abhyudai Singh:
Conditional Moment Closure Schemes for Studying Stochastic Dynamics of Genetic Circuits. IEEE Trans. Biomed. Circuits Syst. 9(4): 518-526 (2015) - [c19]Khem Raj Ghusinga, Pak-Wing Fok, Abhyudai Singh:
Optimal auto-regulation to minimize first-passage time variability in protein level. ACC 2015: 4411-4416 - [c18]Mohammad Soltani, Cesar Augusto Vargas Garcia, Niraj Kumar, Rahul V. Kulkarni, Abhyudai Singh:
Approximate statistical dynamics of a genetic feedback circuit. ACC 2015: 4424-4429 - [c17]Alessandro Borri, Pasquale Palumbo, Abhyudai Singh:
Metabolic noise reduction for enzymatic reactions: The role of a negative feedback. CDC 2015: 2537-2542 - [c16]Khem Raj Ghusinga, Abhyudai Singh:
Theoretical predictions on the first-passage time for a gene expression model. CDC 2015: 3864-3869 - 2014
- [c15]Khem Raj Ghusinga, Abhyudai Singh:
First-passage time calculations for a gene expression model. CDC 2014: 3047-3052 - 2013
- [c14]Abhyudai Singh, Cesar Augusto Vargas Garcia, Rajesh Karmakar:
Stochastic analysis and inference of a two-state genetic promoter model. ACC 2013: 4563-4568 - [c13]Cesar Augusto Vargas Garcia, Ryan Zurakowski, Abhyudai Singh:
Conditions for invasion of synapse-forming HIV variants. CDC 2013: 7193-7198 - [c12]Duarte Antunes, Abhyudai Singh:
Computing mRNA and protein statistical moments for a renewal model of stochastic gene-expression. CDC 2013: 7199-7204 - [c11]Abhyudai Singh, Cesar Augusto Vargas Garcia, Rajesh Karmakar:
Stochastic analysis of genetic promoter architectures with memory. CDC 2013: 7217-7222 - 2012
- [c10]Abhyudai Singh:
Stochastic analysis of genetic feedback circuit controlling HIV cell-fate decision. CDC 2012: 4918-4923 - [c9]Abhyudai Singh:
Quantifying stochasticity in gene-expression with extrinsic parameter fluctuations. CDC 2012: 5342-5347 - 2011
- [j1]Abhyudai Singh, João Pedro Hespanha:
Approximate Moment Dynamics for Chemically Reacting Systems. IEEE Trans. Autom. Control. 56(2): 414-418 (2011) - [c8]Abhyudai Singh:
Genetic negative feedback circuits for filtering stochasticity in gene expression. CDC/ECC 2011: 4366-4370
2000 – 2009
- 2009
- [c7]Abhyudai Singh, João Pedro Hespanha:
Reducing noise through translational control in an auto-regulatory gene network. ACC 2009: 1712-1717 - 2008
- [c6]Abhyudai Singh, João Pedro Hespanha:
Scaling of stochasticity in gene cascades. ACC 2008: 2780-2785 - [c5]Abhyudai Singh, João Pedro Hespanha:
Noise suppression in auto-regulatory gene networks. CDC 2008: 787-792 - 2006
- [c4]Abhyudai Singh, João Pedro Hespanha:
Moment closure techniques for stochastic models in population biology. ACC 2006: 1-6 - [c3]Abhyudai Singh, João Pedro Hespanha:
Lognormal Moment Closures for Biochemical Reactions. CDC 2006: 2063-2068 - 2005
- [c2]Abhyudai Singh, João Pedro Hespanha:
Models for Multi-Specie Chemical Reactions Using Polynomial Stochastic Hybrid Systems. CDC/ECC 2005: 2969-2974 - 2004
- [c1]Abhyudai Singh, Hassan K. Khalil:
State feedback regulation of nonlinear systems using conditional integrators. CDC 2004: 4560-4564
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-10-30 20:31 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
