3,645 research outputs found
Supplemental material for Tailored mobile text messaging interventions targeting type 2 diabetes self-management: A systematic review and a meta-analysis
Supplemental Material for Tailored mobile text messaging interventions targeting type 2 diabetes self-management: A systematic review and a meta-analysis by Cigdem Sahin, Karen L Courtney, PJ Naylor and Ryan E Rhodes in Digital Health</p
Book Discussion : PJ Powers
The UJ Campus Health Services and the Student Affairs Division in partnership with the UJ Library invite you to meet PJ Powers (Thandeka) the co-author of the book HERE I AM About the book: Here I Am, written with Marianne Thamm, is an intimate and hilarious account of the life and times of one of this country’s most recognisable and enduring performers. From the dizzying heights of international stardom to the dark depths of her struggle with alcohol, this is a must-read to explore the heady mix of politics and music of the time. More than just a story about the personal journey of one of South Africa’s most beloved music icons, this extraordinary memoir of PJ Powers – or Thandeka, as she was affectionately renamed by Soweto crowds – is set against the turbulent backdrop of South Africa’s recent political history. It features a gallery of political leaders and international celebrities, including the likes of Nelson Mandela, Graça Machel, Chris Hani, Joaquim Chissano, Queen Elizabeth II, Brenda Fassie, Sharon Stone and Robert De Niro. Facilitator: Prof Alban Burke, Director – PsyCad, University of Johannesburg PJ Powers will also perform a few songs on the day. Date: 27 August 2015 Time: 16:30 for 17:00 Venue: Auditorium (6th Floor), APK Library, University of Johannesburg (corner Kingsway and University Road, Auckland Park) RSVP: By Wednesday, 26 August 2015 to Theodorah Modise on [email protected] / 011 559 226
Book Discussion : PJ Powers
The UJ Campus Health Services and the Student Affairs Division in partnership with the UJ Library invite you to meet PJ Powers (Thandeka) the co-author of the book HERE I AM About the book: Here I Am, written with Marianne Thamm, is an intimate and hilarious account of the life and times of one of this country’s most recognisable and enduring performers. From the dizzying heights of international stardom to the dark depths of her struggle with alcohol, this is a must-read to explore the heady mix of politics and music of the time. More than just a story about the personal journey of one of South Africa’s most beloved music icons, this extraordinary memoir of PJ Powers – or Thandeka, as she was affectionately renamed by Soweto crowds – is set against the turbulent backdrop of South Africa’s recent political history. It features a gallery of political leaders and international celebrities, including the likes of Nelson Mandela, Graça Machel, Chris Hani, Joaquim Chissano, Queen Elizabeth II, Brenda Fassie, Sharon Stone and Robert De Niro. Facilitator: Prof Alban Burke, Director – PsyCad, University of Johannesburg PJ Powers will also perform a few songs on the day. Date: 27 August 2015 Time: 16:30 for 17:00 Venue: Auditorium (6th Floor), APK Library, University of Johannesburg (corner Kingsway and University Road, Auckland Park) RSVP: By Wednesday, 26 August 2015 to Theodorah Modise on [email protected] / 011 559 226
Technologically mediated learning: The future of training in Australia
Hosie, PJ ORCiD: 0000-0003-2585-024XFollowing a review of the economic imperatives currently facing Australia,
the future directions training will take are examined. Related training issues are considered; such as multiskilling, on-the-job training and legal issues. The author predicts that technologically mediated learning (TML),
especially interactive multimedia, will gain ascendancy as the predominant mode of delivery for training
A 0.7-V 0.43-pJ/cycle Wakeup Timer based on a Bang-bang Digital-Intensive frequency-Locked-Loop for IoT Applications
A 40-nm CMOS wakeup timer employing a bang-bang digital-intensive frequency-locked loop for Internet-of-Things applications is presented. A self-biased ΣΔ digitally controlled oscillator (DCO) is locked to an RC time constant via a single-bit chopped comparator and a digital loop filter. Such highly digitized architecture fully exploits the advantages of advanced CMOS processes, thus enabling operation down to 0.7 V and a small area (0.07 mm 2 ). Most circuitry operates at 32× lower frequency than the DCO in order to reduce the total power consumption down to 181 nW. High frequency accuracy and a 10× enhancement of long-term stability is achieved by the adoption of chopping to reduce the effect of comparator offset and 1/f noise and by the use of ΣΔ modulation to improve the DCO resolution. The proposed timer achieves the best energy efficiency (0.43 pJ/cycle at 417 kHz) over prior art while keeping excellent on-par long-term stability (Allan deviation floor <;20 ppm) and temperature stability (106 ppm/°C).Accepted Author Manuscript(OLD)Applied Quantum Architecture
Resilience to large-scale disturbance in coral and fish assemblages on the Great Barrier Reef
Recognition of the complex spatial and temporal variability of abundance and diversity found in many populations has led to a greater focus on the roles of heterogeneity, stochasticity, and disturbance in the structure and persistence of communities. This focus is directly relevant to coral reef communities that are characterized by very high species diversity in a spatially heterogeneous environment, display stochastic variability in community structure at small spatial and temporal scales, and are subject to major disturbances. We monitored coral and fish assemblages over 14 years on fixed sites spread over 80 km of the southern Great Barrier Reef (GBR), Australia, and found evidence of large-scale resilience and predictable recovery of these assemblages. Sometime between November 1987 and October 1989, live coral cover on the shallow northeast flanks of some reefs in the southern GBR decreased from >80% to <10%, probably as a result of storm damage. We compared the fish and benthic communities present in these areas prior to the disturbance (1983-1984) with those present in 1992 and the subsequent changes through to 1998. Hard coral cover increased slowly from 1992 to 1994, then accelerated to be indistinguishable from pre-impact levels by 1998. The response of the coral assemblages was largely due to the predominance of tabulate Acropora species and their characteristics of rapid growth and competitive dominance. Patterns of species richness of the fish families Acanthuridae, Chaetodontidae, Scaridae, and Pomacentridae mirrored that of hard coral, except the Pomacentridae had not recovered to pre-impact levels by 1998. Of the 26 fish species analyzed for changes in abundance, 88% decreased after the disturbance, then subsequently increased, with all but two recovering to pre-impact levels by 1998. Although processes such as settlement and immigration are ultimately responsible for replenishment of local populations, our data suggested that habitat plays a strong role in modifying fish assemblages. Thus, both coral and fish assemblages demonstrated resilience to large-scale natural disturbance and predictability in the structure of the assemblages, with most taxa approaching the asymptote of abundance and species richness that existed prior to the disturbance.PT: J; CR: ALLEN GR, 1998, GUIDE ANGELFISHES BU AULT TR, 1998, ECOL MONOGR, V68, P25 BAIRD AH, 2000, J EXP MAR BIOL ECOL, V251, P117 BELL JD, 1984, MAR ECOL-PROG SER, V15, P265 BOHNSACK JA, 1983, ENVIRON BIOL FISH, V9, P41 BORMANN FH, 1979, AM SCI, V67, P660 BROTHERS EB, 1983, MAR BIOL, V76, P319 BROWN BE, 1997, CORAL REEFS, V16, P129 BUDDEMEIER RW, 2002, CORAL REEFS, V21, P1 BYTHELL JC, 2000, MAR ECOL-PROG SER, V204, P93 CALEY MJ, 1996, J ANIM ECOL, V65, P414 CHABANET P, 1997, CORAL REEFS, V16, P93 CHEAL AJ, 2002, CORAL REEFS, V21, P131 CHESSON PL, 1986, COMMUNITY ECOLOGY, P229 CHOAT JH, 1996, MAR ECOL-PROG SER, V134, P15 CLEY MJ, 1997, P 8 INT COR REEF S, V1, P993 COLGAN MW, 1987, ECOLOGY, V68, P1592 CONNELL JH, 1978, SCIENCE, V199, P1302 CONNELL JH, 1983, AM NAT, V121, P789 CONNELL JH, 1997, CORAL REEFS S, V16, P101 CONNELL JH, 1997, ECOL MONOGR, V67, P461 CORNELL HV, 1996, J ANIM ECOL, V65, P233 DAVIES PJ, 1979, SEARCH, V10, P776 DAVIES PJ, 1980, NATURE, V287, P37 DOHERTY PJ, 1987, B MAR SCI, V41, P411 DOHERTY PJ, 1991, ECOLOGY FISHES CORAL, P261 DOHERTY PJ, 1997, P 8 INT COR REEF S P, V1, P1005 DONE TJ, 1992, CONT SHELF RES, V12, P859 FOWLER AJ, 1990, MAR ECOL-PROG SER, V64, P39 FOWLER AJ, 1992, MAR ECOL-PROG SER, V82, P131 FRIEDLANDER AM, 1998, J EXP MAR BIOL ECOL, V224, P1 GREEN AL, 1996, MAR ECOL-PROG SER, V133, P1 HANSKI I, 1998, NATURE, V396, P41 HART AM, 1996, MAR ECOL-PROG SER, V132, P11 HART AM, 1996, MAR ECOL-PROG SER, V132, P21 HEINSELMAN ML, 1981, P C FIR REG EC PROP, P7 HIXON MA, 1991, ECOLOGY FISHES CORAL, P475 HIXON MA, 1993, ECOL MONOGR, V63, P77 HOBBS RJ, 1994, PACIFIC CONSERVATION, V1, P170 HOLLING CS, 1973, ANNUAL REV ECOLOGY S, V4, P1 HUGHES TP, 1994, SCIENCE, V265, P1547 HUGHES TP, 1999, LIMNOL OCEANOGR 2, V44, P932 JONES GP, 1991, ECOLOGY FISHES CORAL, P294 JONES GP, 1998, AUST J ECOL, V23, P287 KARLSON RH, 1993, CORAL REEFS, V12, P117 LASSIG BR, 1983, ENVIRON BIOL FISH, V9, P55 LEWIS AR, 1997, MAR ECOL-PROG SER, V161, P37 LITTELL RC, 1996, SAS SYSTEM MIXED MOD LUCKHURST BE, 1978, MAR BIOL, V49, P317 MASSEL SR, 1993, CORAL REEFS, V12, P153 MCCULLAGH P, 1989, GENERALIZED LINEAR MEEKAN MG, 1999, B MAR SCI, V64, P383 NINIO R, 2000, MAR ECOL-PROG SER, V194, P65 NINIO R, 2002, CORAL REEFS, V21, P95 NOTT J, 2001, NATURE, V413, P508 ODUM EP, 1969, SCIENCE, V164, P262 OLIVER JK, 1995, LONG TERM MINITORING PAINE RT, 1981, ECOL MONOGR, V51, P145 PICKETT STA, 1986, ECOLOGY NATURAL DIST PIUMM SL, 1991, BALANCE NATURE ECOL RANDALL JE, 1990, FISHES GRET BARRIER ROBERTS CM, 1987, MAR ECOL-PROG SER, V41, P1 SALE PF, 1978, ENVIRON BIOL FISH, V3, P85 SALE PF, 1982, AM NAT, V120, P121 SANO M, 2000, MAR ECOL-PROG SER, V198, P121 STIMSON J, 1985, ECOLOGY, V66, P40 SWEATMAN H, 2000, 4 I MAR SCI SWEATMAN H, 2001, 5 AUSTR I MAR SCI SYMS C, 1998, J EXP MAR BIOL ECOL, V230, P151 SYMS C, 2000, ECOLOGY, V81, P2714 THOMPSON AA, 2002, MAR ECOL-PROG SER, V232, P247 VANWOESIK R, 1991, J COASTAL RES, V7, P551 WALSH WJ, 1983, CORAL REEFS, V2, P49 WELLINGTON GM, 1985, OECOLOGIA, V68, P15 WILKINSON CR, 1999, MAR FRESHWATER RES, V50, P867 WILLIAMS DM, 1982, CORAL REEFS, V1, P35 WILLIAMS DM, 1983, MAR ECOL-PROG SER, V10, P239 WILLIAMS DM, 1986, MAR ECOL-PROG SER, V28, P157 WILLIAMS DM, 1991, ECOLOGY FISHES CORAL, P437 WOODLEY JD, 1981, SCIENCE, V214, P749 WU JG, 1995, Q REV BIOL, V70, P439; NR: 81; TC: 9; J9: ECOLOGY; PG: 14; GA: 843VASource type: Electronic(1
EFEKTIVITAS PASAL 1 PERATURAN DIREKTUR JENDRAL PAJAK NOMOR PER-18/PJ/2017
Tahap Penelitian atau yang penulis biasa sebut dengan validasi SSP (Surat Setoran Pajak) merupakan tahap final dimana seorang wajib pajak telah melakukan kewajibannya dalam penyetoran pajak, dan dalam proses validasi itu sendiri tidak semua akan diterima oleh kantor pajak setempat karena masih akan dilakukan penelitian baik penelitian serara formil maupun materiil. Untuk mekanismenya validasi telah ditetapkan dalam Per-18/Pj/2017 Tentang Cara Penelitian Bukti Pemenuhan Kewajiban Penyetoran Pajak Penghasilan Atas Penghasilan Dari Pengalihan Hak Atas Tanah Dan/Atau Bangunan, Dan Perjanjian Pengikatan Jual Beli Atas Tanah Dan/Atau Bangunan Beserta Perubahannya. Efektifitas pasal 1 Peraturan Direktur Jendral Pajak Nomor Per-18/Pj/2017 di Kantor Pajak Pratama Kota Malang telah sesuai akan tetapi untuk pasal 1 ayat 2 masih belum dan untuk pengikatan jual beli, dan mengenai cara pembuktian bahwa wajib pajak telah memenuhi kewajiban penyetoran adalah dengan cara validasi ataupun telah di telitiKata Kunci: kewajiban, penyetoran, pemenuhan, pajak, validasiThe Research Phase or what the author commonly refers to as SSP validation (Tax Payment Deposit) is the final stage in which a taxpayer has carried out his obligations in tax payments, and in the process of validation itself not all will be accepted by the local tax office because there will still be done a research both formal and material. For the mechanism of validation, it has been stipulated in Per-18 / Pj / 2017 Regarding the Method of Research of Evidence of Fulfillment of Obligation of Income Tax on Income from Transfer of Land and / or Building Rights, and Agreement on Binding of Sale and Purchase of Land and / or Buildings and Amendments. The effectiveness of article 1 of the Regulation of the Director General of Tax Number Per-18 / Pj / 2017 in the Pratama Tax Office Malang is appropriate but for article 1 paragraph 2 it is still not yet for the binding of buying and selling, and regarding the means of proving that the taxpayer has fulfilled the payment obligation is by validation or thoroughlyKeywords: oblilgation, deposit, fulfillment, tax, validatio
A Versatile and Efficient 0.1-to-11 Gb/s CML Transmitter in 40-nm CMOS
We present a wireline transmitter (TX) for re-configurable chip-to-chip links. The proposed design features a frequency-adaptive clock chain, a fast 16:1 clocked-CMOS multiplexer (C2MOS MUX) tree, and a full-rate synchronous current-mode logic (CML) clock driver. A prototype realized in 40-nm CMOS accomplishes a wide 0.1-to-11 Gb/s operation range (fmax/fmin = 110×). At 11 Gb/s, the prototype achieves 3.98 pJ/bit for a bit error rate (BER) < 10-12 with a 60.9-ps eye width.Accepted author manuscriptElectronic
A Differential Transmission Gate Design Flow for Minimum Energy Sub-10-pJ/Cycle ARM Cortex-M0 MCUs
Ultra-low voltage operation is key to achieving energy-efficient operation for microcontroller (MCU) systems. Variation resiliency, high speed operation, and short design time are the most important challenges for these systems. This paper overcomes these challenges in a new design strategy that enables standard cell design with differential transmission gate logic. The commercial toolchain is extended with in-house developed add-ons and makes use of two custom libraries with different device lengths to allow high speed vs. low leakage trade-offs. The design flow is used to prototype two highly efficient 32-bit ARM Cortex-M0 MCU systems in 40-nm CMOS. The core of the first prototype scales down to 190 mV and 0.8-MHz and reaches 16.07 pJ/cycle at 31.2-MHz and 440 mV. The second prototype benefits from the dual libraries and reduces core energy consumption by 50% at the same speed performance. Minimum energy operation is thus achieved at an even lower voltage (370 mV) with the M0 core consuming only 8.80 pJ/cycle at 13.7-MHz, breaking the sub-10-pJ/cycle barrier for a 6–35-MHz range.sponsorship: This paper was approved by Guest Editor Eugenio Cantatore. This work was supported by the IWT-Agency for Innovation by Science and Technology. (Corresponding author: Hans Reyserhove.) (IWT-Agency for Innovation by Science and Technology)status: Publishe
Illustrative example of COI relationship between different authors.
Where Pn and Am are the list of articles and authors respectively, red dashed line indicates citing relationship. The figure shows two cases: (1) Before Pi cites Pj, the author(s) of Pi has (have) collaborated with the author(s) of Pj, just like P2 cites P1, Author A1 and Author A3 co-author P5, Author A1 and Author A4 co-author P6, that is to say, there are two co-author pairs (A1, A3), (A1, A4); (2) Before Pi cites Pj, the author(s) of Pi has (have) not collaborated with the author(s) of Pj, just like P3 cites P2, however, if author A3 and author A5 belong to the same affiliation, (A3, A5) composes suspect COI author pair.</p
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