4,772 research outputs found
Dr S Pavan Kumar
Dr S Pavan Kumar is an Associate Professor in the School of Humanities, Social Sciences and Management, NITK Surathkal, Karnataka. His educational qualifications include Diploma in Electrical & Electronics Engineering from Govt. Polytechnic affiliated to SBTET, Hyderabad. B.E. in Computer Science & Engineering from Amravati University. M.Tech. in Human Resource Development & Management from IIT Kharagpur in 2006. Doctorate in Human Resource Development & Management from IIT Kharagpur in 2011. He has done several other modern-day courses to keep himself updated with the technology and trend. It includes a certificate course in Business Analytics from Manipal global university and a P.G. Diploma in Geo-spatial technologies for rural development from NIRDPR, Govt of India etc. Dr Kumar has gained rich experience of approximately 25 years in academic institutions as academician, consultancy organizations as a consultant, a Govt. enterprise as a trainee etc. His notable experiences, to name a few, are as follows: He has served as Vice-principal for Kshatriya college of engineering, affiliated with JNT University Hyderabad, before joining NITK Surathkal. Dr Kumar joined NITK Surathkal in 2012 and has been serving to date. In his tenure to date, he played several academic and administrative roles. He served as Head of the department during 2018-2021. He is also serving as the secretary for NITK English medium school run by the professors of the NITK Surathkal. Regarding academic achievements, Dr S P Kumar has received many best research paper awards for his contribution in several national and international conferences. So far, he has published approximately forty research papers in referred journals. He had presented approximately 35 papers at conferences of repute. Dr Kumar completed 3 PhD guidance as on date, and six scholars are currently doing PhD under his supervision. Around 25 MBA students have completed their project work under his guidance. Dr Kumar visited international universities located in countries like Switzerland, Spain for research interaction. Dr Kumar regularly conducts workshops on contemporary topics in various universities as part of outreach activities. A few universities where Dr Kumar has conducted events are Kongu engineering college, Rajagiri college of social sciences, IIT Kharagpur extension center etc. He also serves as a member of the board of studies for management programs as an academic expert. A few notable ones are S.R. University Warangal, PSG Coimbatore etc. He is a reviewer for a few journals for repute. He is also on the advisory board of a few start-up companies. He acted as an examiner for several PhD thesis evaluations. Dr Kumar regularly sets question papers for various premier universities of the country. Dr Kumar’s research interests include organizational development, Human resource management & development, Organizational behavior etc.https://www.interscience.in/mentors/1110/thumbnail.jp
Stolephorus tamilensis Pavan-Kumar & Jahageerdar & Jaiswar 2020, sp. nov.
<i>Stolephorus tamilensis</i> sp. nov. <p>Proposed common name: Tamil anchovy (Fig. 2)</p> <p> <b>Holotype</b>: ZSI F12077/2 (50.85 mm SL), Thoothukudi fish landing centre, Tamil Nadu, India (8.7642° N, 78.1348° E), 18 February 2015.</p> <p> <b>Paratypes:</b> All paratypes from Thoothukudi fish landing centre, Tamil Nadu, India, (8.7642° N, 78.1348° E), (Fig. 1) 18 February 2015: BNHS MF 10-12 (3 specimens, 48.48–51.16 mm SL), CIFE-FRM 945–971 (27 specimens, 47.37–53.64 mm SL) collected by Shardul S. Gangan on 18 February 2015.</p> <p> <b>Diagnosis.</b> A species of <i>Stolephorus</i> with the following combination of characters: relatively deep-bodied fish, 19.87–23.37% SL (mean 21.2%); eye relatively large, eye diameter 29.28–35.85% HL (mean 32.09%); posterior margin of preopercle indented; gill rakers 15–19 in upper series on first gill arch, 25–28 on in lower series, 40–47 in total; posterior tip of longest pectoral-fin ray not reaching pelvic-fin origin, pelvic-fin relatively short, 5.81–8.15% SL (mean 7.39%); no pre-dorsal spines and post-pelvic scutes, pre-pelvic scutes 5–6; dorsal-fin base length 13.85– 15.54% in SL (mean 14.57%); dorsal-fin origin is closer to base of caudal fin than to tip of snout; length from dorsal-fin origin to anal-fin origin 20.91–22.57 % in SL (mean 21.87%); anal-fin rays 17–19; numerous melanophores on dorsum and suborbital area.</p> <p> <b>Description.</b> Body cylindrical, laterally compressed. Dorsal profile of head and body slightly convex from snout tip to dorsal fin origin, somewhat straight from the last point to caudal peduncle. Ventral profile of head and body is convex from anterior lower jaw tip to base of pelvic-fin, slightly concave from post pelvic fin to anal-fin origin. Posterior margin of pre- opercule concave, indented. Numerous melanophores on dorsum and suborbital area. Somewhat straight from posterior end of anal-fin to origin of lower caudal-fin lobe. Caudal peduncle slightly deep than longer. Vertebrae 39–40 (two specimens examined). Belly covered with 5–6 sharp needle-like scutes anterior to pelvic-fin insertion. Pelvic-fin without spine. Pre-dorsal and post-pelvic scutes absent.</p> <p>Snout long, rounded, its length less than eye diameter. Mouth sub-terminal, extending backward beyond posterior margin of eye. Posterior end of the upper jaw rounded reaching to border of operculum. Lower jaw slender, extending beyond vertical through posterior margin of eye. Teeth pointed, small, slender, arranged in a single row in the pre maxilla, maxilla and lower jaw. Eye large, round, covered with adipose eye lid, positioned laterally on head dorsal to horizontal through pectoral-fin insertion, visible in dorsal view. Orbit elliptical. Nostrils close to each other, anterior to orbit. Inter orbital width less than eye diameter.</p> <p>Dorsal-fin rays ii–iii + 15, origin closer to base of caudal-fin than to tip of snout. Pair of pigment line in front of dorsal-fin as well as between caudal-fin and dorsal-fin is absent. Anal-fin rays iii + 17–19, its origin at vertical through middle of the dorsal-fin. Pectoral-fin rays I + 13, posterior tip of longest pectoral-fin ray not reaching pelvic-fin origin, pectoral-fin axillary scale found in some specimens but in the remained it was absent, may be lost during collection. Pelvic-fin rays i–ii + 7, longest pectoral-fin rays not reaching vertical through to base of dorsal-fin. Caudal-fin forked, upper and lower lobes of caudal-fin well-developed. Gill rakers long and thin on first branchial arch, 15 –19 on the upper arch, 25–28 on lower arch (Table 4).</p> <p> <i>Colour.</i> Colour of thirty specimens of <i>Stolephorus tamilensis</i> <b>sp. nov.</b> in fresh condition silvery whitish, very faint silvery stripe running along the lateral side; small dark pigment line running along upper border of anal fin.</p> <p> <b>Distribution.</b> Based on the collection of voucher specimens from present study, the type locality of <i>Stolephorus tamilensis</i> sp. nov. is Thoothukudi, Tamil Nadu State of India 8.7642° N, 78.1348° E. Probably this species is distributed in Gulf of Mannar and along the Tamil Nadu State coast.</p> <p> <b>Etymology.</b> The species is named as “ <i>tamilensis</i> ” with reference to the Tamil Nadu, a state of India, the type locality of the species.</p> <p> <b>Comparisons.</b> <i>Stolephorus tamilensis</i> differs from congeners except <i>S. dubiosus, S. baganensis, S. bengalensis, S. carpenteriae, S. tri, S. ronquilloi, S. holodon,</i> and <i>S. andhraensis</i> by the hind boarder of the pre-operculm concave (<i>vs.</i> rounded in <i>S. indicus</i>, <i>S. commersonnii, S. waitei, S. chinensis, S. multibranchus, S. brachycephalus, S. advenus, S. nelsoni, S. apiensis, S. pacificus, S. continentalis, S. insignus</i> and <i>S. oceanicus</i>). The new species also distinguishes from <i>S. dubiosus, S. tri</i> and <i>S. baganensis</i> by the absence of pre-dorsal spine (<i>vs.</i> presence). Furthermore, <i>S. tamilensis</i> can be distinguished from <i>S. andhraensis</i> by the absence of scattered pigments between dorsal-fin and caudal peduncle (<i>vs.</i> presence). In addition, <i>Stolephorus tamilensis</i> is also distinct from <i>S. andhraensis</i>, <i>S. ronquilloi, S. tri, S. multibranchus, S. brachycephalus, S. apiensis, S. pacificus, S. insignus, S. continentalis, S. teguhi, S. baganensis</i>, <i>S. waitei, S. chinensis, S. bataviensis, S. baweanensis, S. bengalensis</i> and <i>S. oceanicus</i> by 25–28 gill rakers on the lower limb of the first gill arch (<i>vs</i>. 20–21 in <i>S. andhraensis,</i> 28–30 in <i>S. ronquilloi</i>, 18–22 in <i>S. tri,</i> 32–35 in <i>S. multibranchus,</i> 20–22 in <i>S. brachycephalus,</i> 30–31 in <i>S. apiensis,</i> 35–38 in <i>S. pacificus,</i> 26–28 in <i>S. insignus & S. continentalis</i>, 41–46 in <i>S. teguhi,</i> 20–23 in <i>S. baganensis</i>, 23–25 in <i>S. waitei,</i> 20–25 in <i>S. chinensis,</i> 19–22 in <i>S. bataviensis & S. baweanensis,</i> 22–27 in <i>S. bengalensis</i> and 24–28 in <i>S. oceanicus</i>). The new species also differs from <i>S. commersonnii, S. multibranchus, S. brachycephalus, S. advenus, S. pacificus</i>, <i>S. teguhi, S. chinensis, S. insignus, S. bataviensis</i> and <i>S. bengalensis</i> by 5–6 needle like pre-pelvic scutes (<i>vs.</i> 1–4 in <i>S. commersonnii,</i> 2–4 in <i>S. multibranchus,</i> 4–5 in <i>S. brachycephalus,</i> 7 in <i>S. advenus,</i> 1–4 in <i>S. pacificus</i>, 2–5 in <i>S. teguhi,</i> 4–7 in <i>S. chinensis, S. insignus</i> & <i>S. bataviensis,</i> and 5–8 in <i>S. bengalensis</i>). <i>Stolephorus tamilensis</i> is distinguishable from <i>S. multibranchus, S. brachycephalus, S. carpentariae, S. advenus, S. teguhi, S. chinensis, S. bengalensis</i> and <i>S. insignus</i> by 17–19 anal fin rays (<i>vs.</i> 18–20 in <i>S. multibranchus,</i> 19–22 in <i>S. brachycephalus,</i> 19–20 in <i>S. carpenteriae,</i> 16 in <i>S. advenus</i>, 19–21 in <i>S. teguhi,</i> 18–20 in <i>S. chinensis</i>, 16–19 in <i>S. bengalensis</i> and 18–19 in <i>S. insignus</i>).</p> <p> Furthermore, <i>S. tamilensis</i> differs from <i>S. commersonnii, S. indicus, S. waitei</i> (<i>S. baweanensis</i> sensu Hata <i>et al</i>. 2019), <i>S. insularis</i> (<i>S</i>. <i>bengalensis</i> sensu Hata <i>et al.</i> 2019), <i>S. baganensis, S. dubiosus</i> in eye diameter, dorsal fin base length, pelvic fin length, length between dorsal and anal-fin origins and maximum body depth (Table 3).</p> <p>...Continued next page</p> <p> * <i>S. waitei</i> (<i>Stolephorus baweanensis</i> sensu Hata <i>et al</i>. 2019), * <i>S. insularis</i> (<i>S. bengalensis</i> sensu Hata <i>et al</i>. 2019)</p> <p> <b>Note:</b> standard length or SL, snout length SNL (1), head length HL (2), postorbital head length POHL (3), interorbital width IOW (4), eye diameter ED (5), upper jaw length UJL (6), lower jaw length LJL (7), dorsal-fin base length DFBL (8), anal-fin base length AFBL (9), pelvic-fin base length PFBL (10), pelvic-fin length PLFL (11), pectoral-fin base length PTBL (12), pectoral fin long filament length PTFL (13), length from tip of snout to origin of dorsal fin TSDF (14), length from tip of snout to origin of anal fin TSAF (15), length from tip of snout to origin of pelvic fin TSPF (16), length from tip of snout to origin of pectoral fin TSPTF (17), length from origin of dorsal fin to origin of anal fin AFDL (18), maximum body depth MBD (19), length from base of pectoral fin to origin of pelvic fin BPTFPL (20), length from base of pectoral fin to origin of anal fin BPTFAL (21), length from base of pelvic fin to origin of anal fin BPLFAF (22)</p> <p> <b>Statistical analysis of morphometric variables.</b> Higher F-ratio of more than 200 for ED/HL, DFBL/SL, PLFL/SL, AFDL/SL and MBD/SL reveal their better discrimination power than the other characters (Table 3). Herein, a higher F-value of 3309.651 and 2471.632 for ED/HL and MBD/SL, respectively, showed the importance of insertion point in species differentiation. However, comparative analysis showed overlapping meristic characters between <i>S. insularis</i> (<i>S. bengalensis</i> sensu Hata <i>et al.</i> 2019) and <i>S. tamilensis</i> (Table 4).</p>Published as part of <i>Pavan-Kumar, Annam, Jahageerdar, Shrinivas & Jaiswar, A. K., 2020, A new species of Stolephorus (Clupeiformes: Engraulidae) from the Bay of Bengal India, pp. 561-574 in Zootaxa 4743 (4)</i> on pages 563-568, DOI: 10.11646/zootaxa.4743.4.6, <a href="http://zenodo.org/record/3690639">http://zenodo.org/record/3690639</a>
Wikis: Tool for Altering Tacit Knowledge Explicit
The paper presentsives an overview of the concept and dimensions of knowledge and its management in libraries using ICT based systems. Explores how Wikis can be used in libraries to commute the implicit knowledge explicit among the professionals and the users. Discusses in detail the scope of Wikis implementation in libraries. Explains the relative advantage and weakness of Wikis as a knowledge management tool in libraries
Bhaaratha Vivasayi App
Abstract: This study motivates farmers to use an online business stage to shape their income without any middlemen. Online business is one of the quick enterprises on the planet. Numerous organizations were at that point moved to online business and producing immense income inside a brief timeframe. The serious issue is "The farmer who produces nourishment for the country isn't benefitting with the pay". Since there is no such committed stage for farmers to create beneficial pay for their developed items. Existing stages are joined with all classifications (home, kitchen, and electrical apparatuses) of items that could tangle up farmers, and furthermore, the absence of app information is one reason that a farmer will be unable to sell their items on the app. To defeat this, The Bhaaratha Vivasayi app will be useful where a farmer can be ready to sell or buy anything connected with the agribusiness and cultivating classification without middlemen. A basic easy to understand app with numerous rancher merchants and different horticultural items alongside a point-by-point review about the most recent cultivating innovations will definitely shape the cultivating area income. This will help ranchers to get information and save both time and energy. Likewise, new associations and correspondences will be laid out and the item stock will sell effectively with practically no work help. Also, it will help customers to buy organic fresh groceries at a reasonable price directly from farmers. Basically, It is devoted to farmers with all cultivating items like pesticides, seeds, composts, crops, etc. . So, this app will surely play a vital role in uplifting & benefitting framers as well as customers.Published By:
Blue Eyes Intelligence Engineering
and Sciences Publication (BEIESP)
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Bibliographics for the 983 eprints in the live archives of E-LIS : trends and status report up to 7th July 2004, based on author-self-archiving metadata
The priority for ideas and philosophy related to "Network Theory" have been traced back and documented by Braun(2004),and credit goes to Karinthy(1929).The IT has empowered to realise it, as the most practical phenomena and it is no more a humour. The OAI (Open Archives Initiatives)and ACIS (Academic Contributor Information System)are progressive in the direction ,which may lead to realise the "Collective Genius" at global level. Focus of present study is on Author-Self-Archiving (A-S-A)Metadata of the 983 Eprints in the Live Archives of the E-LIS (EPrints of Library and Information Science),which were approved till 7th July 2004.The A-S-A Metadata was used for librametric analysis. Self-explanatory bibliographics are illustrated.The highlights include: Conference papers (34%); highest approval, June 2004 (28%); published archives (76%);not refereed (52%); not in public domain (60%); highest self-archiving-author (De Robbio, Antonella).The Nos. of EPrints having single JITA domain specifications were: Theoretical and general aspects of libraries and information(27); Information use and sociology of information(80);Users,literacy and reading(13);Libraries as physical collections(30);Publishing and legal issues(57);Management(13);Industry, profession and education(36);Information sources, supports, channels(113) ; Information treatment for information services, Information functions and techniques (101); Technical services libraries, archives and museums(25); Housing technologies(1); Information technology and library technology(92); and Inter-domainery (395) i.e. having specifications of two or more than two JITA classes
FIGURE 5 in A new species of Stolephorus (Clupeiformes: Engraulidae) from the Bay of Bengal India
FIGURE 5. Neighbour-joining tree of species of Stolephorus genera constructed using COI gene K2P distance values (*S. insularis / S. bengalensis sensu Hata et al. 2019); *S. waitei/ S. baweanensis sensu Hata et al. 2019).Published as part of Pavan-Kumar, Annam, Jahageerdar, Shrinivas & Jaiswar, A. K., 2020, A new species of Stolephorus (Clupeiformes: Engraulidae) from the Bay of Bengal India, pp. 561-574 in Zootaxa 4743 (4) on page 572, DOI: 10.11646/zootaxa.4743.4.6, http://zenodo.org/record/369063
FIGURE 4 in Establishment of taxonomic status of Macrobrachium indicum Jayachandran & Joseph (Decapoda: Palaemonidae) through molecular characterization with a note on related species
FIGURE 4. NJ tree constructed for various species of Macrobrachium based on COI gene.Published as part of Mary, Ajina S., Jayachandran, K.V., Landge, Asha T., Gladston, Y. & Pavan-Kumar, A., 2019, Establishment of taxonomic status of Macrobrachium indicum Jayachandran & Joseph (Decapoda: Palaemonidae) through molecular characterization with a note on related species, pp. 174-182 in Zootaxa 4652 (1) on page 180, DOI: 10.11646/zootaxa.4652.1.11, http://zenodo.org/record/399558
Clock multiplication techniques for high-speed I/Os
Generation of a low-jitter, high-frequency clock from a low-frequency reference clock using classical analog phase-locked loops (PLLs) requires a large loop filter capacitor and power hungry oscillator. Digital PLLs can help reduce area but their jitter performance is severely degraded by quantization error. In this dissertation different clock multiplication techniques have been explored that can be suitable for high-speed wireline systems. With the emphasis on ring oscillator based architecture using cascaded stages, three possible architectures are explored.
First, a scrambling TDC (STDC) is presented to improve deterministic jitter (DJ) performance when used with a low-frequency reference clock. A cascaded architecture with digital multiplying delay locked loop as the first stage and hybrid analog/digital PLL as the second stage is used to achieve low random jitter in a power efficient manner. Fabricated in a 90nm CMOS process, the prototype frequency synthesizer consumes 4.76mW power from a 1.0V supply and generates 160MHz and 2.56 GHz output clocks from a 1.25MHz crystal reference frequency. The long-term absolute jitter of the 60MHz digital MDLL and 2.56 GHz digital PLL outputs are 2.4 psrms and 4.18 psrms, while the peak-to-peak jitter is 22.1 ps and 35.2 ps, respectively. The proposed frequency synthesizer occupies an active die area of 0.16mm2 and achieves power efficiency of 1.86 mW/GHz.
Second, a hybrid phase/current-mode phase interpolator (HPC-PI) is presented to improve phase noise performance of ring oscillator-based fractional-N PLLs. The proposed HPC-PI alleviates the bandwidth trade-off between VCO phase noise suppression and ΔΣ quantization noise suppression. By combining the phase detection and interpolation functions into an XOR phase detector/interpolator (XOR PD-PI) block, accurate quantization error cancellation is achieved without using calibration. Use of a digital MDLL in front of the fractional-N PLL helps in alleviating the bandwidth limitation due to reference frequency and enables bandwidth extension even further. The extended bandwidth helps in suppressing the ring-VCO phase noise and lowering the in-band noise floor. Fabricated in 65nm CMOS process, the prototype generates fractional frequencies from 4.25 to 4.75 GHz, with an in-band phase noise floor of -104 dBc/Hz and 1.5 psrms integrated jitter. The clock multiplier achieves power efficiency of 2.4mW/GHz and FoM of -225.8 dB.
Finally, an efficient clock generation, recovery, and distribution techniques for flexible-rate transceivers are presented. Using a fixed-frequency low-jitter clock provided by an integer-N PLL, fractional frequencies are generated/recovered locally using multi-phase fractional clock multipliers. Fabricated in a 65nm CMOS, the prototype transceiver can be programmed to operate at any rate from 3-to-10 Gb/s. At 10 Gb/s, integrated jitter of the Tx output and recovered clock is 360 fsrms and 758 fsrms, respectively.Submission published under a 24 month embargo labeled 'U of I Access', the embargo will last until 2019-05-01The student, Romesh Kumar Nandwana, accepted the attached license on 2017-04-17 at 15:09.The student, Romesh Kumar Nandwana, submitted this Dissertation for approval on 2017-04-17 at 15:42.This Dissertation was approved for publication on 2017-04-19 at 08:46.DSpace SAF Submission Ingestion Package generated from Vireo submission #10816 on 2017-08-10 at 15:05:48Made available in DSpace on 2017-08-10T20:32:59Z (GMT). No. of bitstreams: 3
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Self-Assembly of a Guanosine Derivative To Form Nanostructures and Transmembrane Channels
We herein report the self-assembly of a lipophilic bromoguanosine derivative (G1) in homogeneous solution, in the solid state and in planar bilayer membranes. The self-assembly of G1, driven by H-bonding and π–π stacking interactions can form different nano-structures depending on incubation time. The G1 nanostructure is able to bind a bioactive dye like Rose Bengal. In crystal state, it shows ribbon type H-bonding pattern and exhibits birefringence in polarized light. And further, the self-assembled nanostructure of G1 can form discrete transmembrane ion channels in lipid bilayer membranes, enabling passage of potassium ions
Scientometric Portrait of Homi Jehangir Bhabha: The Father of Indian Nuclear Research Programme
Quantitative and qualitative analysis with graphic representation of the publication productivity of a scientist facilitates easy and clear perception about the work of a scientist. Bhabha’s scientific work spanned over more than three decades (1933-1967) during which he published 104 publications, which could be classified into nine fields: Interaction of Radiation with Matter (4), Quantum Electrodynamics (5), Mathematical Physics (2), Cosmic Ray Physics (18), Elementary Particle Physics (14), Field Theory (15), General Physics (2), Nuclear Physics (4) and General (40). The highest number of publications (6) were published in 1941, 1945 and 1964 respectively. The average number of publications published per year was 3.05. His productivity coefficient was 0.05 which is a clear indicates that his publication productivity was quite consistent throughout his scientific career. He was single author in 79 of his publications and the main author in 24 publications indicates that he always preferred to work himself and lead the team as ‘mentor’. Bhabha had 22 collaborators during the period. Team of research collaborators working with a successful scientist documents the sociological aspect of history of science while generating knowledge by a leader in a domain.
Bhabha became a citable author in 1937. Bhabha received 1211 citations to his 30 publications out of 104 publications. Out of 104, 74 publications did not receive any citations. Out of 74 publications, 40 publications dealt subjects mainly of general interest. Bhabha’s 86.66 percent of cited publications received their first citations within four years of their publication indicates that his publications were noticed immediately and had direct impact among the fellow researchers working all over the world. His overall citation rate was 11.64 per cited publication. The highest citations 389 were received to the domain ‘Cosmic ray physics’. The highest number of citations received were 45 in 1938. His self-citations were only 24 (1.98%) and citations by others were 1187 (98.02%). The highest self citations were six in 1946. Bhabha’s mean diachronous self-citation rate was 1.98. The highest citation rate 28.4 was to the domain ‘Quantum electrodynamics. His single authored publications have received the highest number 863 (71.26%) of citations. Bhabha’s five publications have been cited more than 100 times each. His publications have been cited by the authors working in various diverse fields like nuclear physics, mathematical physics, instrumentation, optics, geophysics and geochemistry, condensed matter physics, applied physics, electrical and electronic engineering, mechanical engineering etc., indicating a very diverse influence and impact of Bhabha’s publications. Bhabha’s publications have also been cited by the Nobel laureates like V. L. Ginzberg, Wolfgang Pauli, H. A. Bethe, M. Born, W. Bothe, E. P. Wigner, H. Yukawa, P. M. S. Blackett and C. N. Yang which is an indication of his originality of ideas and high quality of publications
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