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1. Existential Definability over the Subword Ordering

Author

Pascal Baumann, Moses Ganardi, Ramanathan S. Thinniyam, and Georg Zetzsche

Subjects
computer science - logic in computer science, computer science - formal languages and automata theory, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

We study first-order logic (FO) over the structure consisting of finite words over some alphabet $A$, together with the (non-contiguous) subword ordering. In terms of decidability of quantifier alternation fragments, this logic is well-understood: If every word is available as a constant, then even the $\Sigma_1$ (i.e., existential) fragment is undecidable, already for binary alphabets $A$. However, up to now, little is known about the expressiveness of the quantifier alternation fragments: For example, the undecidability proof for the existential fragment relies on Diophantine equations and only shows that recursively enumerable languages over a singleton alphabet (and some auxiliary predicates) are definable. We show that if $|A|\ge 3$, then a relation is definable in the existential fragment over $A$ with constants if and only if it is recursively enumerable. This implies characterizations for all fragments $\Sigma_i$: If $|A|\ge 3$, then a relation is definable in $\Sigma_i$ if and only if it belongs to the $i$-th level of the arithmetical hierarchy. In addition, our result yields an analogous complete description of the $\Sigma_i$-fragments for $i\ge 2$ of the pure logic, where the words of $A^*$ are not available as constants.

Published
2023
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2. General Decidability Results for Asynchronous Shared-Memory Programs: Higher-Order and Beyond

Author

Rupak Majumdar, Ramanathan S. Thinniyam, and Georg Zetzsche

Subjects
computer science - formal languages and automata theory, computer science - programming languages, f.3.1, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

The model of asynchronous programming arises in many contexts, from low-level systems software to high-level web programming. We take a language-theoretic perspective and show general decidability and undecidability results for asynchronous programs that capture all known results as well as show decidability of new and important classes. As a main consequence, we show decidability of safety, termination and boundedness verification for higher-order asynchronous programs -- such as OCaml programs using Lwt -- and undecidability of liveness verification already for order-2 asynchronous programs. We show that under mild assumptions, surprisingly, safety and termination verification of asynchronous programs with handlers from a language class are decidable iff emptiness is decidable for the underlying language class. Moreover, we show that configuration reachability and liveness (fair termination) verification are equivalent, and decidability of these problems implies decidability of the well-known "equal-letters" problem on languages. Our results close the decidability frontier for asynchronous programs.

Published
2022
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4. Theranostic applications of nanoparticles in neurodegenerative disorders

Author

Ramanathan S, Archunan G, Sivakumar M, Tamil Selvan S, Fred AL, Kumar S, Gulyás B, and Padmanabhan P

Subjects
theranostics, neurological disease, nanoparticles, imaging., Medicine (General), R5-920
Abstract

Sahana Ramanathan,1 Govindaraju Archunan,2 Muthusamy Sivakumar,3 Subramanian Tamil Selvan,4 A Lenin Fred,5 Sundramurthy Kumar,1 Balázs Gulyás,1 Parasuraman Padmanabhan1 1Lee Kong Chian School of Medicine, Nanyang Technological University, Singapore; 2Department of Animal Science, Centre for Pheromone Technology (CPT), Bharathidasan University, Tiruchirappalli, India; 3Nanoscience and Technology, Anna University – BIT Campus, Tiruchirappalli, India; 4Institute of Materials Research and Engineering, Singapore; 5Mar Ephraem College of Engineering and Technology, Kanyakumari, India Abstract: The preeminent treatments for neurodegenerative disease are often unavailable due to the poor accessibility of therapeutic drugs. Moreover, the blood–brain barrier (BBB) effectively blocks the transfer of cells, particles and large molecules, ie, drugs, across the brain. The most important challenge in the treatment of neurodegenerative diseases is the development of targeted drug delivery system. Theranostic strategies are known to combine therapeutic and diagnostic capabilities together. The aim of this review was to record the response to treatment and thereby improve drug safety. Nanotechnology offers a platform for designing and developing theranostic agents that can be used as an efficient nano-carrier system. This is achieved by the manipulation of some of the properties of nanoparticles (NPs), thereby enabling the attachment of suitable drugs onto their surface. The results provide revolutionary treatments by stimulation and thus interaction with targeted sites to promote physiological response with minimum side effects. This review is a brief discussion of the administration of drugs across the brain and the advantages of using NPs as an effective theranostic platform in the treatment of Alzheimer’s, Parkinson’s, epilepsy and Huntington’s disease. Keywords: theranostics, neurological disease, nanoparticles, imaging

Published
2018

6. Reachability in Continuous Pushdown VASS

Author

Balasubramanian, A. R., Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Programming Languages
Abstract

Pushdown Vector Addition Systems with States (PVASS) consist of finitely many control states, a pushdown stack, and a set of counters that can be incremented and decremented, but not tested for zero. Whether the reachability problem is decidable for PVASS is a long-standing open problem. We consider continuous PVASS, which are PVASS with a continuous semantics. This means, the counter values are rational numbers and whenever a vector is added to the current counter values, this vector is first scaled with an arbitrarily chosen rational factor between zero and one. We show that reachability in continuous PVASS is NEXPTIME-complete. Our result is unusually robust: Reachability can be decided in NEXPTIME even if all numbers are specified in binary. On the other hand, NEXPTIME-hardness already holds for coverability, in fixed dimension, for bounded stack, and even if all numbers are specified in unary.

Published
2023

7. Defining Recursive Predicates in Graph Orders

Author

Ramanathan S. Thinniyam

Subjects
computer science - logic in computer science, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

We study the first order theory of structures over graphs i.e. structures of the form ($\mathcal{G},\tau$) where $\mathcal{G}$ is the set of all (isomorphism types of) finite undirected graphs and $\tau$ some vocabulary. We define the notion of a recursive predicate over graphs using Turing Machine recognizable string encodings of graphs. We also define the notion of an arithmetical relation over graphs using a total order $\leq_t$ on the set $\mathcal{G}$ such that ($\mathcal{G},\leq_t$) is isomorphic to ($\mathbb{N},\leq$). We introduce the notion of a \textit{capable} structure over graphs, which is one satisfying the conditions : (1) definability of arithmetic, (2) definability of cardinality of a graph, and (3) definability of two particular graph predicates related to vertex labellings of graphs. We then show any capable structure can define every arithmetical predicate over graphs. As a corollary, any capable structure also defines every recursive graph relation. We identify capable structures which are expansions of graph orders, which are structures of the form ($\mathcal{G},\leq$) where $\leq$ is a partial order. We show that the subgraph order i.e. ($\mathcal{G},\leq_s$), induced subgraph order with one constant $P_3$ i.e. ($\mathcal{G},\leq_i,P_3$) and an expansion of the minor order for counting edges i.e. ($\mathcal{G},\leq_m,sameSize(x,y)$) are capable structures. In the course of the proof, we show the definability of several natural graph theoretic predicates in the subgraph order which may be of independent interest. We discuss the implications of our results and connections to Descriptive Complexity.

Published
2018
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8. Checking Refinement of Asynchronous Programs against Context-Free Specifications

Author

Baumann, Pascal, Ganardi, Moses, Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory
Abstract

In the language-theoretic approach to refinement verification, we check that the language of traces of an implementation all belong to the language of a specification. We consider the refinement verification problem for asynchronous programs against specifications given by a Dyck language. We show that this problem is EXPSPACE-complete -- the same complexity as that of language emptiness and for refinement verification against a regular specification. Our algorithm uses several technical ingredients. First, we show that checking if the coverability language of a succinctly described vector addition system with states (VASS) is contained in a Dyck language is EXPSPACE-complete. Second, in the more technical part of the proof, we define an ordering on words and show a downward closure construction that allows replacing the (context-free) language of each task in an asynchronous program by a regular language. Unlike downward closure operations usually considered in infinite-state verification, our ordering is not a well-quasi-ordering, and we have to construct the regular language ab initio. Once the tasks can be replaced, we show a reduction to an appropriate VASS and use our first ingredient. In addition to the inherent theoretical interest, refinement verification with Dyck specifications captures common practical resource usage patterns based on reference counting, for which few algorithmic techniques were known., Comment: Full version of paper accepted for ICALP 2023

Published
2023

9. Comparing resident cataract surgery outcomes under novice versus experienced attending supervision

Author

Puri S, Kiely AE, Wang J, Woodfield AS, Ramanathan S, and Sikder S

Subjects
Ophthalmology, RE1-994
Abstract

Sidharth Puri,1 Amanda E Kiely,2 Jiangxia Wang,3 Alonzo S Woodfield,4 Saras Ramanathan,5 Shameema Sikder21Johns Hopkins School of Medicine, Baltimore, MD, 2Wilmer Eye Institute, Johns Hopkins University School of Medicine, Baltimore, MD, 3Bloomberg School of Public Health, Johns Hopkins University, Baltimore, MD, 4Kaiser Permanente South Sacramento Medical Center, Sacramento, 5San Francisco School of Medicine, University of California, San Francisco, CA, USAPurpose: To determine whether supervision by an attending new to surgical teaching or an experienced attending measurably influences intraoperative complications rates or outcomes in phacoemulsification performed by ophthalmology residents.Setting: Single tertiary hospital.Design: Retrospective cohort study. Methods: Resident-performed phacoemulsification cases supervised by one novice attending (N=189) and experienced attending (N=172) over 1 year were included. Data included: resident year, patient age, sex, preoperative risk factors (4+ dense/white/brunescent cataracts, Flomax, zonular dialysis, pseudoexfoliation, glaucoma risk, post-vitrectomy), intraoperative risk factors (Trypan blue, iris hooks), and intraoperative complications (capsule tears, vitreous loss, zonular dialysis, zonular dehiscence, burns, nuclear fragment loss, Descemet’s tear). Experienced attending data were compared against those of the novice attending.Results: Regarding preoperative risks, experienced attending cases more likely involved 4+ cataract (P=0.005), Flomax (P

Published
2015

12. Modeling of the metal–insulator transition temperature in alio-valently doped VO2 through symbolic regression.

Author

Banik, S., Shriram, S. V., Ramanathan, S., and Sankaranarayanan, S. K. R. S.

Abstract

The correlated semiconductor vanadium dioxide (VO2) exhibits an insulator–metal transition (IMT) near room temperature, which is of interest in various device applications. Precise IMT temperature control is crucial to determine the use cases across technologies such as thermochromic windows, actuators for robots or neuronal oscillators. Doping the cation or anion sites can modulate the IMT by several tens of degrees and control hysteresis. However, modeling the effects of control parameters (e.g., doping concentration, type of dopants) is challenging due to complex experimental procedures and limited data, hindering the use of traditional data-driven machine learning approaches. Symbolic regression (SR) can bridge this gap by identifying nonlinear expressions connecting key input parameters to target properties, even with small data sets. In this work, we develop SR models to capture the IMT trends in VO2 influenced by different dopant parameters. Using experimental data from the literature, our study reveals a dual nature of the IMT temperature with varying tungsten (W) doping concentrations. The symbolic model captures data trends and accounts for experimental variability, providing a complementary approach to first-principles calculations. Our feature-driven analysis across a broader class of dopants informs selectivity and provides qualitative insights into tuning phase transition properties valuable for neuromorphic computing and thermochromic windows. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Existential Definability over the Subword Ordering

Author

Baumann, Pascal, Ganardi, Moses, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Logic in Computer Science, Computer Science - Formal Languages and Automata Theory
Abstract

We study first-order logic (FO) over the structure consisting of finite words over some alphabet $A$, together with the (non-contiguous) subword ordering. In terms of decidability of quantifier alternation fragments, this logic is well-understood: If every word is available as a constant, then even the $\Sigma_1$ (i.e., existential) fragment is undecidable, already for binary alphabets $A$. However, up to now, little is known about the expressiveness of the quantifier alternation fragments: For example, the undecidability proof for the existential fragment relies on Diophantine equations and only shows that recursively enumerable languages over a singleton alphabet (and some auxiliary predicates) are definable. We show that if $|A|\ge 3$, then a relation is definable in the existential fragment over $A$ with constants if and only if it is recursively enumerable. This implies characterizations for all fragments $\Sigma_i$: If $|A|\ge 3$, then a relation is definable in $\Sigma_i$ if and only if it belongs to the $i$-th level of the arithmetical hierarchy. In addition, our result yields an analogous complete description of the $\Sigma_i$-fragments for $i\ge 2$ of the pure logic, where the words of $A^*$ are not available as constants.

Published
2022
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15. Context-Bounded Verification of Thread Pools

Author

Baumann, Pascal, Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Programming Languages
Abstract

Thread pooling is a common programming idiom in which a fixed set of worker threads are maintained to execute tasks concurrently. The workers repeatedly pick tasks and execute them to completion. Each task is sequential, with possibly recursive code, and tasks communicate over shared memory. Executing a task can lead to more new tasks being spawned. We consider the safety verification problem for thread-pooled programs. We parameterize the problem with two parameters: the size of the thread pool as well as the number of context switches for each task. The size of the thread pool determines the number of workers running concurrently. The number of context switches determines how many times a worker can be swapped out while executing a single task - like many verification problems for multithreaded recursive programs, the context bounding is important for decidability. We show that the safety verification problem for thread-pooled, context-bounded, Boolean programs is EXPSPACE-complete, even if the size of the thread pool and the context bound are given in binary. Our main result, the EXPSPACE upper bound, is derived using a sequence of new succinct encoding techniques of independent language-theoretic interest. In particular, we show a polynomial-time construction of downward closures of languages accepted by succinct pushdown automata as doubly succinct nondeterministic finite automata. While there are explicit doubly exponential lower bounds on the size of nondeterministic finite automata accepting the downward closure, our result shows these automata can be compressed. We show that thread pooling significantly reduces computational power: in contrast, if only the context bound is provided in binary, but there is no thread pooling, the safety verification problem becomes 3EXPSPACE-complete.

Published
2021

18. General Decidability Results for Asynchronous Shared-Memory Programs: Higher-Order and Beyond

Author

Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Programming Languages, F.3.1
Abstract

The model of asynchronous programming arises in many contexts, from low-level systems software to high-level web programming. We take a language-theoretic perspective and show general decidability and undecidability results for asynchronous programs that capture all known results as well as show decidability of new and important classes. As a main consequence, we show decidability of safety, termination and boundedness verification for higher-order asynchronous programs -- such as OCaml programs using Lwt -- and undecidability of liveness verification already for order-2 asynchronous programs. We show that under mild assumptions, surprisingly, safety and termination verification of asynchronous programs with handlers from a language class are decidable iff emptiness is decidable for the underlying language class. Moreover, we show that configuration reachability and liveness (fair termination) verification are equivalent, and decidability of these problems implies decidability of the well-known "equal-letters" problem on languages. Our results close the decidability frontier for asynchronous programs.

Published
2021
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21. A Case Study of Bus Bar Heat Transfer Optimization Using Taguchi Technique for Low Tension Application

Author

Thirumurugaveerakumar, S., Manivelmuralidaran, V., Ramanathan, S., Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Haddar, Mohamed, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Deepak, B. B. V. L., editor, Bahubalendruni, M. V. A. Raju, editor, Parhi, D. R. K., editor, and Biswal, B. B., editor

Published
2023
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22. Bilateral vision loss as the initial presentation for central nervous system involvement of mantle cell lymphoma: A case series

Author

Small, L, Ma, C, Shah, M, Ramanathan, S, and Rasool, N

Subjects
Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Oncology and Carcinogenesis, Ophthalmology and Optometry, Rare Diseases, Neurosciences, Eye Disease and Disorders of Vision, Hematology, Lymphoma, Cancer, Infiltrative optic neuropathy, Mantle cell lymphoma, Optic neuropathy
Abstract

PurposeMantle cell lymphoma is a rare aggressive subtype of non-Hodgkins B cell lymphoma. It typically presents with asymptomatic monoclonal lymphocytosis, lymphadenopathy or bulky extranodal disease. Mantle cell lymphoma rarely affects the central nervous system. We present two cases in which vision loss was the initial symptom of central nervous system involvement by the malignancy.ObservationsBoth patients initially received high dose intravenous steroids with notable improvement in their vision.Conclusions and importanceEarly detection and management of optic nerve infiltration by mantle cell lymphoma is essential as it improves visual outcomes and enables prompt management of the patient's systemic disease.

Published
2021

23. The complexity of bounded context switching with dynamic thread creation

Author

Baumann, Pascal, Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Logic in Computer Science, Computer Science - Programming Languages
Abstract

Dynamic networks of concurrent pushdown systems (DCPS) are a theoretical model for multi-threaded recursive programs with shared global state and dynamical creation of threads. The (global) state reachability problem for DCPS is undecidable in general, but Atig et al. (2009) showed that it becomes decidable, and is in 2EXPSPACE, when each thread is restricted to a fixed number of context switches. The best known lower bound for the problem is EXPSPACE-hard and this lower bound follows already when each thread is a finite-state machine and runs atomically to completion (i.e., does not switch contexts). In this paper, we close the gap by showing that state reachability is 2EXPSPACE-hard already with only one context switch. Interestingly, state reachability analysis is in EXPSPACE both for pushdown threads without context switches as well as for finite-state threads with arbitrary context switches. Thus, recursive threads together with a single context switch provide an exponential advantage. Our proof techniques are of independent interest for 2EXPSPACE-hardness results. We introduce transducer-defined Petri nets, a succinct representation for Petri nets, and show coverability is 2EXPSPACE-hard for this model. To show 2EXPSPACE-hardness, we present a modified version of Lipton's simulation of counter machines by Petri nets, where the net programs can make explicit recursive procedure calls up to a bounded depth.

Published
2020
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24. Context-Bounded Verification of Liveness Properties for Multithreaded Shared-Memory Programs

Author

Baumann, Pascal, Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Programming Languages, F.2, F.4, D.3
Abstract

We study context-bounded verification of liveness properties of multi-threaded, shared-memory programs, where each thread can spawn additional threads. Our main result shows that context-bounded fair termination is decidable for the model; context-bounded implies that each spawned thread can be context switched a fixed constant number of times. Our proof is technical, since fair termination requires reasoning about the composition of unboundedly many threads each with unboundedly large stacks. In fact, techniques for related problems, which depend crucially on replacing the pushdown threads with finite-state threads, are not applicable. Instead, we introduce an extension of vector addition systems with states (VASS), called VASS with balloons (VASSB), as an intermediate model; it is an infinite-state model of independent interest. A VASSB allows tokens that are themselves markings (balloons). We show that context bounded fair termination reduces to fair termination for VASSB. We show the latter problem is decidable by showing a series of reductions: from fair termination to configuration reachability for VASSB and thence to the reachability problem for VASS. For a lower bound, fair termination is known to be non-elementary already in the special case where threads run to completion (no context switches). We also show that the simpler problem of context-bounded termination is 2EXPSPACE-complete, matching the complexity bound---and indeed the techniques---for safety verification. Additionally, we show the related problem of fair starvation, which checks if some thread can be starved along a fair run, is also decidable in the context-bounded case. The decidability employs an intricate reduction from fair starvation to fair termination. Like fair termination, this problem is also non-elementary.

Published
2020

25. Cation and anion topotactic transformations in cobaltite thin films leading to Ruddlesden-Popper phases

Author

Chiu, IT, Lee, MH, Cheng, S, Zhang, S, Heki, L, Zhang, Z, Mohtashami, Y, Lapa, PN, Feng, M, Shafer, P, N'Diaye, AT, Mehta, A, Schuller, JA, Galli, G, Ramanathan, S, Zhu, Y, Schuller, IK, and Takamura, Y

Abstract

Topotactic transformations involve structural changes between related crystal structures due to a loss or gain of material while retaining a crystallographic relationship. The perovskite oxide La0.7Sr0.3CoO3 (LSCO) is an ideal system for investigating phase transformations due to its high oxygen vacancy conductivity, relatively low oxygen vacancy formation energy, and strong coupling of the magnetic and electronic properties to the oxygen stoichiometry. While the transition between cobaltite perovskite and brownmillerite (BM) phases has been widely reported, further reduction beyond the BM phase lacks systematic studies. In this paper, we study the evolution of the physical properties of LSCO thin films upon exposure to highly reducing environments. We observe the rarely reported crystalline Ruddlesden-Popper phase, which involves the loss of both oxygen anions and cobalt cations upon annealing where the cobalt is found as isolated Co ions or Co nanoparticles. First-principles calculations confirm that the concurrent loss of oxygen and cobalt ions is thermodynamically possible through an intermediary BM phase. The strong correlation of the magnetic and electronic properties to the crystal structure highlights the potential of utilizing ion migration as a basis for emerging applications such as neuromorphic computing.

Published
2021

27. Regular Separability and Intersection Emptiness are Independent Problems

Author

Thinniyam, Ramanathan S. and Zetzsche, Georg

Subjects
Computer Science - Formal Languages and Automata Theory, Computer Science - Logic in Computer Science
Abstract

The problem of \emph{regular separability} asks, given two languages $K$ and $L$, whether there exists a regular language $S$ with $K\subseteq S$ and $S\cap L=\emptyset$. This problem has recently been studied for various classes of languages. All the results on regular separability obtained so far exhibited a noteworthy correspondence with the intersection emptiness problem: In eachcase, regular separability is decidable if and only if intersection emptiness is decidable. This raises the question whether under mild assumptions, regular separability can be reduced to intersection emptiness and vice-versa. We present counterexamples showing that none of the two problems can be reduced to the other. More specifically, we describe language classes $\mathcal{C_1}$, $\mathcal{D_1}$, $\mathcal{C_2}$, $\mathcal{D_2}$ such that (i)~intersection emptiness is decidable for $\mathcal{C_1}$ and $\mathcal{D_1}$, but regular separability is undecidable for $\mathcal{C_1}$ and $\mathcal{D_1}$ and (ii)~regular separability is decidable for $\mathcal{C_2}$ and $\mathcal{D_2}$, but intersection emptiness is undecidable for $\mathcal{C_2}$ and $\mathcal{D_2}$.

Published
2019

31. Vanadium dioxide circuits emulate neurological disorders

Author

Lin, J., Guha, S., and Ramanathan, S.

Subjects
Quantitative Biology - Neurons and Cognition
Abstract

Information in the central nervous system (CNS) is conducted via electrical signals known as action potentials and is encoded in time. Several neurological disorders including depression, Attention Deficit Hyperactivity Disorder (ADHD), originate in faulty brain signaling frequencies. Here, we present a Hodgkin-Huxley model analog for a strongly correlated VO2 artificial neuron system that undergoes an electrically-driven insulator-metal transition. We demonstrate that tuning of the insulating phase resistance in VO2 threshold switch circuits can enable direct mimicry of neuronal origins of disorders in the central nervous system. The results introduce use of circuits based on quantum materials as complementary to model animal studies for neuroscience, especially when precise measurements of local electrical properties or competing parallel paths for conduction in complex neural circuits can be a challenge to identify onset of breakdown or diagnose early symptoms of disease., Comment: 25 pages, 14 figures

Published
2018

37. Defining Recursive Predicates in Graph Orders

Author

Thinniyam, Ramanathan S.

Subjects
Computer Science - Logic in Computer Science
Abstract

We study the first order theory of structures over graphs i.e. structures of the form ($\mathcal{G},\tau$) where $\mathcal{G}$ is the set of all (isomorphism types of) finite undirected graphs and $\tau$ some vocabulary. We define the notion of a recursive predicate over graphs using Turing Machine recognizable string encodings of graphs. We also define the notion of an arithmetical relation over graphs using a total order $\leq_t$ on the set $\mathcal{G}$ such that ($\mathcal{G},\leq_t$) is isomorphic to ($\mathbb{N},\leq$). We introduce the notion of a \textit{capable} structure over graphs, which is one satisfying the conditions : (1) definability of arithmetic, (2) definability of cardinality of a graph, and (3) definability of two particular graph predicates related to vertex labellings of graphs. We then show any capable structure can define every arithmetical predicate over graphs. As a corollary, any capable structure also defines every recursive graph relation. We identify capable structures which are expansions of graph orders, which are structures of the form ($\mathcal{G},\leq$) where $\leq$ is a partial order. We show that the subgraph order i.e. ($\mathcal{G},\leq_s$), induced subgraph order with one constant $P_3$ i.e. ($\mathcal{G},\leq_i,P_3$) and an expansion of the minor order for counting edges i.e. ($\mathcal{G},\leq_m,sameSize(x,y)$) are capable structures. In the course of the proof, we show the definability of several natural graph theoretic predicates in the subgraph order which may be of independent interest. We discuss the implications of our results and connections to Descriptive Complexity.

Published
2017
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41. Analytical characterization of engineered nanostructures – Techniques and challenges.

Author

Ramanathan, S., Gopinath, S. C. B., Anbu, P., and Selvarajan, R. S.

Subjects
*NANOSTRUCTURES, *NANOSTRUCTURED materials, *NANOPARTICLES
Abstract

Numerous nanostructures with nanoscale dimensions smaller than 100 nm have been developed. These nanostructures, including those with promising uses, have novel physicochemical characteristics that affect the molecular and systemic levels of their physiological interactions. The need for analytical data relevant to manufactured nanomaterials is growing, necessitating the modification of current techniques and methodologies or the creation of new ones. The analytical sciences have faced a hurdle in recognizing nanoparticles as a novel class of analytes that include both chemical and physical information. It is also necessary to provide details on the physiochemical characteristics of nanoparticles and their changes. This article discusses primary available characterizing techniques to deal with engineered nanostructures for evaluating its quality and performances. The principle of each technique is included while indicating the strength and limitations in determining the physiochemical characteristics of engineered nanostructures. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Reachability in Continuous Pushdown VASS

Author

Balasubramanian, A. R., Majumdar, Rupak, Thinniyam, Ramanathan S., Zetzsche, Georg, Balasubramanian, A. R., Majumdar, Rupak, Thinniyam, Ramanathan S., and Zetzsche, Georg

Abstract

Pushdown Vector Addition Systems with States (PVASS) consist of finitely many control states, a pushdown stack, and a set of counters that can be incremented and decremented, but not tested for zero. Whether the reachability problem is decidable for PVASS is a long-standing open problem. We consider continuous PVASS, which are PVASS with a continuous semantics. This means, the counter values are rational numbers and whenever a vector is added to the current counter values, this vector is first scaled with an arbitrarily chosen rational factor between zero and one. We show that reachability in continuous PVASS is NEXPTIME-complete. Our result is unusually robust: Reachability can be decided in NEXPTIME even if all numbers are specified in binary. On the other hand, NEXPTIME-hardness already holds for coverability, in fixed dimension, for bounded stack, and even if all numbers are specified in unary.

Published
2024
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