106 research outputs found
Synthesis and cycloaddition reactions of derivatives of strained alkynes derived from 2,2’-dihydroxy-1,1’-biaryls
A series of strained alkynes, based on the 2,2’-dihydroxy-1,1’-biaryl structure, were prepared in a short sequence from readily-available starting materials. These compounds can be readily converted into further derivatives including examples containing fluorescent groups with potential for use as labelling reagents. The alkynes are able to react in cycloadditions with a range of azides without the requirement for a copper catalyst, in clean reactions with no observable side reactions
Calling for Culpability: Anish Kapoor's Dirty Corner
Beginning in 2008, The Château of Versailles has hosted temporary exhibitions by contemporary artists. This paper looks at the backlash incurred against the exhibition by British-Indian artist Anish Kapoor, specifically his sculpture Dirty Corner. After Dirty Corner was vandalized with antisemitic hate speech, the artist pushed back against removing the graffiti, which only compounded the already antagonistic relationship between Kapoor, Versailles, and the public.
This paper posits that Kapoor’s refusal to cleanse Dirty Corner of its anti-Semitic defacement confronts France’s lingering denial of responsibility in both the Holocaust during WWII, and the nation’s burgeoning xenophobia in the wake of the European Refugee Crisis.student peer reviewed journal articlefinal article publishe
Evaluating spatial equity in bike share systems
This research analyzes 10 of the largest third generation docked bike share systems in the United States along with 3 docked bike share systems in New Jersey. These bike share systems were carefully selected to reflect diversity in their size and age, and their host region’s size and geography as well as data availability.This report was developed by the New Jersey Bicycle and Pedestrian Resource Center within the Alan M. Voorhees Transportation Center (VTC) at Rutgers, The State University of New Jersey. The research team included Charles T. Brown, MPA, Principal Investigator, Devajyoti Deka, PhD, Aashna Jain, Anish Grover, and Qingyang Xie. The Center is supported by the New Jersey Department of Transportation through funds provided by the Federal Highway Administration
Reconstructive foot and ankle surgery management of complications
Packed with superb illustrations, pearls, and pitfalls, Reconstructive Foot and Ankle Surgery: Management of Complications, 3rd Edition, delivers step-by-step guidance on essential elements of complex foot and ankle surgery. World-renowned surgeon Dr. Mark S. Myerson, along with expert co-author Dr. Anish R. Kadakia, provides detailed instruction on how to select the correct treatment for challenging disorders and manage complications after surgery. A highly templated, consistent format, abundant illustrations, and decades of real-life experience make this an easy-to-use resource for everyday practice as well as an authoritative reference for in-depth study"--Publisher's descriptio
Budhan Stories S2E7: Corona won't affect us
Episode 7 of Season 2 - This episode was shot in Maharashtra and Bhopal, with online and offline interviews with Pardhi people sharing stories of suffering during Corona. Pardhis are one of the most stigmatised community as a Criminal Tribe in various states and development policies are never made for them. They are social outcasts and the state could not reach out to them for the help during Corona because they live in remote areas, at the roadsides and in forest areas. Also stigma makes their problems much worse.Created (Author) by: Anish Garange. Participants: Budhan Theatre, Dakxin Chhara, Atish Indrekar, Ruchika Kodekar, Chetna Rathod, Kushal Batunge, Keyur Bajrange, Anish Garange, Siddharth Garange, Alice Tilche, Akshay Khanna, Yashodara Udupa, Ankita Jain, Pardhi, Maharashtra, Bhopal, Vaccination.Supplementary materials include short clips, photographs, poster and subtitles. </p
CoqIOA : a formalization of IO automata in the Coq proof assistant
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 2017.This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.Cataloged from student-submitted PDF version of thesis.Includes bibliographical references (pages 51-53).Implementing distributed systems correctly is difficult. Designing correct distributed systems protocols is challenging because designs must account for concurrent operation and handle network and machine failures. Implementing these protocols is challenging as well: it is difficult to avoid subtle bugs in implementations of complex protocols. Formal verification is a promising approach to ensuring distributed systems are free of bugs, but verification is challenging and time-consuming. Unfortunately, current approaches to mechanically verifying distributed systems in proof assistants using deductive verification do not allow for modular reasoning, which could greatly reduce the effort required to implement verified distributed systems by enabling reuse of code and proofs. This thesis presents CoqIOA, a framework for reasoning about distributed systems in a compositional way. CoqIOA builds on the theory of input/output automata to support specification, proof, and composition of systems within the proof assistant. The framework's implementation of the theory of IO automata, including refinement, simulation relations, and composition, are all machine-checked in the Coq proof assistant. An evaluation of CoqIOA demonstrates that the framework enables compositional reasoning about distributed systems within the proof assistant.by Anish Athalye.M. Eng
Development and application of the stokes trap for measurement of interparticle interactions
Embargo set by: Colleen Fallaw for item 103493
Lift date: 2019-09-29T17:48:06Z
Reason: Author requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemThe ability to trap and control single particles in free solution has led to major advances in science and engineering. Common methods for particle trapping and manipulation often rely on optical, magnetic, acoustic, or electric forces. However, the vast majority of these methods critically depend on the target particle possessing specific physical properties such as index of refraction or surface charge. In this research, we have designed and built a Stokes trap, which allows for the manipulation and control of an arbitrary number of arbitrary type particles using only fluid flow. In this way, we have effectively constructed a `smart microfluidic device' by coupling feedback control with microfluidics, thereby enabling new routes for the fluidic-directed assembly of particles. This work is comprised of three distinct but interrelated efforts towards the precision trapping and manipulation of multiple particles using fluid flow. In the first project, the control algorithm for a microfluidic process is extensively studied for confining a single particle in solution. Here, we study the response of trapped particles actuated using a combination of proportional, integral, and derivative controllers (PID control), which extends beyond our prior work where we utilized a simple proportional controller for 2-D manipulation of particles in free solution. We investigate the effect of controller gains, flow rate, and feedback response times on the robustness of trapping, using a combination of simulation and experimental studies. In the second project, we present the development and application of the Stokes Trap, which is a multiplexed microfluidic method for arbitrary manipulation of an arbitrary number of particles in solution. We demonstrate simultaneous manipulation of two particles in a simple microfluidic device, and also achieve fluidic directed assembly of multiple particles in solution. In the third project, the Stokes trap is used to implement and experimentally demonstrate trajectory control using fluidic trapping, wherein particles are controlled by a path-following framework that improves the precision and the speed of manipulation of particles along arbitrary paths. An extended Kalman filter is also implemented, which effectively reduces the offset due to unmodeled phenomena during particle trapping. Finally, these techniques are leveraged to demonstrate the direct determination of solvent-mediated hydrodynamic interactions (HI) between two freely suspended colloidal particles in flow. From a broad perspective, this work provides a robust framework for studying fundamental interactions between particles or for guiding the directed assembly of materials.Submission published under a 24 month embargo labeled 'U of I Access', the embargo will last until 2019-08-01The student, Anish Shenoy, accepted the attached license on 2017-06-14 at 17:18.The student, Anish Shenoy, submitted this Dissertation for approval on 2017-06-14 at 17:20.This Dissertation was approved for publication on 2017-06-16 at 11:43.DSpace SAF Submission Ingestion Package generated from Vireo submission #11223 on 2017-09-29 at 10:45:50Made available in DSpace on 2017-09-29T17:45:41Z (GMT). No. of bitstreams: 2
SHENOY-DISSERTATION-2017.pdf: 6740561 bytes, checksum: dc2c2da260cd332198cd396030963224 (MD5)
LICENSE.txt: 4209 bytes, checksum: 3e56d0f1477bed68fc3c12f646735370 (MD5)
Previous issue date: 2017-06-16Embargo set by: Seth Robbins for item 103493
Lift date: 2020-03-02T19:56:41Z
Reason: Author requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemEmbargo set by: Seth Robbins for item 103493
Lift date: 2020-03-02T19:59:52Z
Reason: Author requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemEmbargo set by: Seth Robbins for item 103493
Lift date: 2020-03-02T20:02:46Z
Reason: Author requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemU of I Only Restriction Lifted for Item 103493 on 2020-03-03T10:15:29Z
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