9,052 research outputs found
Rahul Kumar: Harmonic Discord Show Card
Show card for Rahul Kumar: Harmonic Discord. Exhibition presented in partial fulfillment of the Master of Arts. April 7 - 18, 2008
Shri. Rahul Kumar Reddy, IAS, Asst. Secretary, Department of Fisheries, visits Mandapam Regional Centre of ICAR-CMFRI ICAR News dated 27th August 2022
Shri. Rahul Kumar Reddy, IAS, Asst. Secretary, Department of Fisheries, Ministry of Fisheries, Animal Husbandry & Dairying visited the Mandapam Regional Centre of ICAR- Central Marine Fisheries Research Institute, Kochi today to study activities of the region, especially cage farming, seaweed farming and sea-ranching. He interacted with the scientists of the Centre and visited the marine hatchery complex which includes live feed production units, finfish & marine ornamental fish brooders and larviculture facilities
Rediscovery of Morina ludlowii (Caprifoliaceae): An overlooked species from India
Kumar, Rahul, Krishna, Gopal, Kumar, Vikas (2023): Rediscovery of Morina ludlowii (Caprifoliaceae): An overlooked species from India. Phytotaxa 591 (2): 177-180, DOI: 10.11646/phytotaxa.591.2.10, URL: http://dx.doi.org/10.1094/PDIS-04-22-0755-PD
Extensions of Watson's theorem and the Ramanujan-Guinand formula
© 2023 World Scientific Publishing Company.Ramanujan provided several results involving the modified Bessel function Kz(x) in his Lost Notebook. One of them is the famous Ramanujan-Guinand formula, equivalent to the functional equation of the non-holomorphic Eisenstein series on SL2(ℤ). Recently, this formula was generalized by Dixit, Kesarwani, and Moll. In this paper, we first obtain a generalization of a theorem of Watson and, as an application of it, give a new proof of the result of Dixit, Kesarwani, and Moll. Watson's theorem is also generalized in a different direction using muλ) which is itself a generalization of Kz(x). Analytic continuation of all these results are also given.11Nsciescopu
Related Data for: Late-Holocene sea-level markers preserved in a beach ridge system on Phra Thong Island, Thailand
100 MHz ground penetrating radar (GPR) data were collected from Phra Thong Island, Thailand
sj-docx-1-wmr-10.1177_0734242X211055544 – Supplemental material for Disposal of hazardous industrial waste in cement kiln – A pilot study of acid tar sludge
Supplemental material, sj-docx-1-wmr-10.1177_0734242X211055544 for Disposal of hazardous industrial waste in cement kiln – A pilot study of acid tar sludge by Rahul Baidya and Sadhan Kumar Ghosh in Waste Management & Research</p
From Detection to Design: Struggles of an Educator in the Age of GenAI
Invited presentation for the Retreat of the Department to deal with the Disruption caused by GenAI. The talk presented the challenges and some solutions that are being tried or might be useful for consideration.This presentation, titled "From Detection to Design: Struggles of an Educator in the Age of GenAI," delivered by Rahul Kumar at the University of Ottawa, examines how generative artificial intelligence (GenAI) is reshaping learning, authorship, and assessment. Drawing on empirical data from international studies (Kumar & McGray, 2024; 2025; Kumar, 2025) and the Canadian Perspectives on Academic Integrity (Kumar & Mindzak, 2024), it highlights the limitations of detection-based responses to AI-generated work. Referencing Sarah Eaton’s concept of postplagiarism (2023) and Krakauer’s framework of complementary versus competitive cognitive artifacts, Kumar argues for a shift from punitive approaches toward assessment designs that make AI a complementary partner in learning. The presentation calls on educators to distinguish between performance and learning, embedding AI in pedagogically sound ways that foster intellectual engagement rather than automate thinking
Oreichthys incognito Knight & Kumar, 2015, sp. nov.
Oreichthys incognito, sp. nov. (Fig. 3) Holotype. ZSI FF 5250, 31.4 mm SL, 11 ° 00' 10.9 " N 76 ° 27 ' 06.1" E Kunthipuzha, upstream of Mannarkkad, Kerala State, 11.10. 2011, Rahul Kumar et al. Paratypes. NBFGR.2014.08.1.2–3, 2 ex., 20.4–23.9 mm SL, collection details same as holotype. Diagnosis. Oreichthys incognito sp. nov. can be distinguished from its congeners by a combination of characters including 21–22 + 1 scales in the longitudinal series with 5 pored scales; ½ 3 / 1 / 1 ½ scales in the transverse row; 8 predorsal scales and a vertical black bar on the dorsal fin. Description. See table 1 for morphometric characters, and fig. 3 for general appearance. Body deep, laterally compressed, its dorsal profile arched with a hump at the nape, ventral profile convex. Body deepest at the dorsal-fin origin, its depth almost a third of its length, decreasing towards caudal-fin base. Dorsal fin with two simple and 8 ½ branched rays, its posterior margin concave, its height almost equal to body depth. Pelvic fin reaching anal fin origin with one unbranched and 7 branched rays; anal fin immediately behind the anal opening with two unbranched and 5 ½ branched rays, not reaching the caudal fin base; and pectoral fin with one simple and 11 branched rays reaching beyond pelvic fin origin. Caudal fin deeply forked, its lobes subequal, with 19 (1 + 9 + 8 + 1) rays. Lateral line incomplete, with 21 (2)– 22 (1)+ 1 scales in the longitudinal series, of which 5 scales are pored. Predorsal scales 8; scales in transverse line on body ½ 3 / 1 / 1 ½. Gill rakers absent. Head small, its length almost equal to body depth, its dorsal profile ascending with an indentation at the nape. Eyes large, placed forward, their diameter a little larger than snout length. Mouth small oblique, lips thin, lower jaw shorter than the upper jaw, angle of gape reaching behind the anterior margin of the eye orbit, barbels absent. Snout blunt, devoid of tubercles. Nostrils closer to eye than snout tip. Nine rows of papillae present on sub-orbital and extending onto the pre-opercle. Caudal peduncle slender, its length a little more than its depth. Coloration. Formalin-fixed and alcohol-preserved specimens are brownish with a faint humeral spot covering 3 rd to 5 th lateral line scale. All fins hyaline with a vertical black bar on the dorsal fin. Scales with dark outer edges and scattered melanophores along the fin bases. In life, body silver, dorsal fin grey with a tinge of red on the anterior end and a vertical black bar. All other fins hyaline. A faint black spot on the caudal fin base, which may sometimes be absent (Image 2). The species looks very similar to Puntius vittatus. Etymology. The species name incognito = having ones true identity concealed, is an allusion to the species probably being overlooked in earlier ichthyofaunal surveys due to its similarity to Puntius vittatus. The species name is a noun in apposition. Distribution and habitat. Oreichthys incognito sp. nov. is at present known from its type locality, the Kunthipuzha upstream of Mannarkkad in Kerala, India. The river there at the time of collection was shallow, with rapid flow over a substrate of gravel and cobbles. Stands of Pandanus and other riparian vegetation were present along the banks. The specimens were collected from close to the bank, amidst submerged vegetation. O. duospilus O. incognito O. coorgensis O. cosuatis Holotype Range Holotype Range Holotype Range Range NBFGR. ZSI FF 5250 ZSI FF 1715 2014.08. 1.1Published as part of Marcus Knight, J. D. & Kumar, Rahul G., 2015, A review of the species of Oreichthys (Teleostei: Cyprinidae) in the Western Ghats, India, pp. 157-167 in Zootaxa 3914 (2) on pages 160-161, DOI: 10.11646/zootaxa.3914.2.5, http://zenodo.org/record/23457
sj-docx-1-pie-10.1177_09544089221110983 - Supplemental material for Experimental analysis of latent heat thermal energy storage system using encapsulated multiple phase-change materials
Supplemental material, sj-docx-1-pie-10.1177_09544089221110983 for Experimental analysis of latent heat thermal energy storage system using encapsulated multiple phase-change materials by Santosh Kumar Singh, Sujit Kumar Verma, Rahul Kumar, Abhishek Sharma, Ramanpreet Singh and Nishant Tiwari in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
sj-docx-2-pie-10.1177_09544089221110983 - Supplemental material for Experimental analysis of latent heat thermal energy storage system using encapsulated multiple phase-change materials
Supplemental material, sj-docx-2-pie-10.1177_09544089221110983 for Experimental analysis of latent heat thermal energy storage system using encapsulated multiple phase-change materials by Santosh Kumar Singh, Sujit Kumar Verma, Rahul Kumar, Abhishek Sharma, Ramanpreet Singh and Nishant Tiwari in Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering</p
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