Best sources in Banyumasan Wikipedia PR-model

AR-model | F-model | PR-model
#WebsiteScore in June 20201m changes
1depdagri.go.id544,218-35,143
2depkeu.go.id66,772+24,550
3cia.gov66,466+8,459
4usatoday.com51,533-7,200
5pu.go.id48,600+8,700
6archive.org45,648+1,105
7bps.go.id39,699+13,520
8tempointeraktif.com37,253+4,349
9un.org34,720-6,440
10museumsumpahpemuda.go.id32,275+2,150
11suarapembaruan.com32,275+2,150
12wisatanet.com32,275+2,150
13kompas.com27,762-181
14wikipedia.org26,756-6,347
15statistik-portal.de25,400+1,800
16citypopulation.de25,340+4,980
17imf.org25,188-755
18google.com17,500+5,700
19detiknews.com15,736+2,354
20monstersandcritics.com15,680-1,180
21timor-leste.gov.tl15,600+2,500
22vandredi-blog.blogspot.com14,700+8,400
23bbc.co.uk14,639-729
24dapodik.org12,911+6,181
25google.co.id12,247+1,955
26indonesia.go.id11,078+2,180
27signonsandiego.com10,050-1,575
28jakarta.go.id9,020-469
29antara.co.id8,776-1,324
30singstat.gov.sg8,445+1,845
31forbes.com8,423-12,171
32nasa.gov7,858-3,794
33lowyinterpreter.org7,840-590
34rti.org.tw7,840-590
35deplu.go.id7,840-590
36unisosdem.org7,840-590
372point6billion.com7,840-590
38chinadaily.com.cn7,840-590
39setneg.go.id7,568-379
40bappenas.go.id7,425-325
41acehprov.go.id7,279-352
42esdm.go.id7,025-325
43legalitas.org6,933-267
44undp.org6,338+25
45books.google.com6,213-2,265
46thejakartapost.com5,947-399
47liputan6.com5,768-264
48cnn.com5,750-1,650
49unesco.org5,392+84
50wordorigins.org5,180-2,120
51shvoong.com5,134-328
52depsos.go.id5,070-2,294
53ristek.go.id5,031-952
54time.com4,974-645
55suaramerdeka.com4,938+1,739
56stlyrics.com4,900-22,500
57pikiran-rakyat.com4,748+212
58ancientindia.co.uk4,466-2,367
59indology.info4,466-2,367
60tokoh-indonesia.com4,450+550
61worldstatesmen.org4,400+3,300
62surabaya.go.id4,250-2,950
63unsoed.ac.id4,250-2,950
64alexa.com4,150-1,150
65merdeka.com4,120-289
66zdnet.com.au4,066-6,067
67dbkl.gov.my4,064-528
68kafka.web.id4,014+14
69pjnhk.go.id4,014+14
70inaheart.or.id4,014+14
71infooke.com4,014+14
72pnri.go.id3,900+350
73extremeborneo.com3,840+480
74walkaboutindonesia.com3,840+480
75nytimes.com3,696-1,025
76nobelprize.org3,672-2,001
77harvard.edu3,621-3,045
78semarang.go.id3,600+2,400
79kpu.go.id3,583-2,033
80hollywoodreporter.com3,550+900
81thestar.com3,550+900
82jabarprov.go.id3,472+1,332
83pierrefitchonline.com3,400+3,001
84okezone.com3,149+826
85britannica.com3,043+59
86debian.org3,000+300
87beritasatu.com2,950-2,550
88cbn.net.id2,921+339
89jogjakota.go.id2,833+833
90surabayapost.co.id2,772+586
91sumselprov.go.id2,771-314
92faharuddin.wordpress.com2,771-314
93bappeda-kaltim.com2,654+700
94wikimapia.org2,650+1,967
95menkokesra.go.id2,633-2,250
96detik.com2,623-27
97ubuntu.com2,622-1,511
98einstein-website.de2,6000
99ias.ac.in2,6000
100wunderground.com2,585-621
101tanahabangbusana.com2,569+693
102korantempo.com2,550-150
103ui.ac.id2,514+1,657
104usc.edu2,481+258
105antaranews.com2,435+657
106vivanews.com2,435+400
107ebietgade.com2,400+500
108deptan.go.id2,363+1,029
109mediaindonesia.com2,323-913
110jatimprov.go.id2,300+100
111utexas.edu2,300+1,400
112ueuo.com2,265-248
113lonelyplanet.com2,265-248
114wmo.int2,265-248
115bappedajakarta.go.id2,265-248
116expat.or.id2,265-248
117caltech.edu2,258-217
118jstor.org2,191+225
119cair.com2,190+295
120studyquran.org2,190+295
121renaissance.com.pk2,190+295
122pref.kyoto.jp2,175-1,062
123ca.gov2,175-1,062
124nad.go.id2,150+250
125kernel.org2,133-833
126linux.org2,133-833
127tldp.org2,133-833
128guardian.co.uk2,133-591
129kitlv-journals.nl2,100-2,600
130wikimedia.org2,075-575
131tribunnews.com2,009-311
132hukumonline.com2,000+950
133subang.go.id1,966+100
134cerom-outremer.org1,909-54
135bandungkab.go.id1,906+432
136navy.mil1,900-1,000
137rediff.com1,866-367
138virtualpune.com1,850+100
139geocities.com1,850+100
140hypertextbook.com1,800-1,117
141surakarta.go.id1,8000
142indonesiamedia.com1,781+291
143waspada.co.id1,776-736
144tripod.com1,771+4
145ethnologue.com1,744-200
146istat.it1,744-200
147detikfinance.com1,733-667
148mobot.org1,691+58
149world-gazetteer.com1,671-379
150datastatistik-indonesia.com1,650+275
151azopera.com1,600+450
152kemendagri.go.id1,600-350
153tempo.co1,572+23
154worldbank.org1,556+286
155eureka4you.com1,550+1,267
156ascd.org1,523+17
157doi.org1,523+17
158dartmouth.edu1,523+17
159claymath.org1,523+17
160dunianyasari.blogspot.com1,499-525
161faktailmiah.com1,439+699
162wonogirikab.go.id1,350+350
163fsfla.org1,311-755
164tokohindonesia.com1,308-273
165ingentaconnect.com1,292-93
166gatra.com1,291+295
167maduhutan.com1,283+265
168paskibraka-jp.or.id1,257+829
169rakyataceh.com1,236-436
170metrotvnews.com1,228+927
171arxiv.org1,200-1,302
172detikinet.com1,200+400
173jpnn.com1,176-200
174statistics.gov.my1,168-84
175thestar.com.my1,166-106
176iht.com1,163-129
177kartverket.no1,162+50
178ssb.no1,162+50
179europa.eu1,162+50
180virtualmalaysia.com1,161-151
181stat.go.jp1,136+52
182rmaf.org.ph1,128-503
183kapanlagi.com1,124+96
184iau.org1,116-1,118
185indonext.com1,101+297
186economist.com1,101+297
187ciputraentrepreneurship.com1,100+925
188kontan.co.id1,100-550
189grains.org1,100-550
190banyuwangikab.go.id1,0800
191eastjava.com1,0800
192tentangnusantara.com1,0800
193organisasi.org1,071-350
194sinarharapan.co.id1,026+182
195catholic-hierarchy.org1,000-1,400
196news.google.com1,000-25
197tempo.co.id988-81
198kabarinews.com981-589
199samarinda.go.id973+113
200bongkar.co.id973+113

Scientific publications with DOI number

#WebsiteScore in June 20201m changes
1Report of the IAU/IAG Working Group on cartographic coordinates and rotational elements: 20061,221-441
2The Term Indonesia: Its Origin and Usage1,101+297
3The Atmospheres of Uranus and Neptune581-163
4Hidden Mass in the Asteroid Belt400-434
5Recent Advances in Far Eastern Paleoanthropology367+99
6Insights from history367+99
7The Nanggroe Aceh Darussalam law: a serious response to Acehnese separatism?367+99
8Neptune’s Deep Chemistry290-82
9An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II241+8
10How many species of seed plants are there?241+8
11How many species of seed plants are there?241+8
12How many species of seed plants are there? - a response241+8
13Magnetic Fields at Neptune232-65
14Newton, Prisms, and the “Opticals” of Tunable Lasers228-72
15The origin and evolution of the solar system200-217
16Asymmetries in the distribution of H2O and CO2 in the inner coma of Comet 9P/Tempel 1 as observed by Deep Impact200-217
17Toward a solution to the early faint Sun paradox: A lower cosmic ray flux from a stronger solar wind200-217
18On the Two Oosterhoff Groups of Globular Clusters200-217
19PLANETARY SCIENCE: Enhanced: Erosion by the Solar Wind200-217
20Effects of the position of the solar wind termination shock and the heliopause on the heliospheric modulation of cosmic rays200-217
21Origins of Solar System Dust beyond Jupiter200-217
22The Primordial Excitation and Clearing of the Asteroid Belt200-217
23A study of the original orbits of "hyperbolic" comets200-217
24Autoresonant (nonstationary) excitation of pendulums, Plutinos, plasmas, and other nonlinear oscillators200-217
25Cloud Structures on Neptune Observed with Keck Telescope Adaptive Optics174-49
26Comparative models of Uranus and Neptune116-32
27High Winds of Neptune: A Possible Mechanism116-32
28ISO observations of the giant planets and Titan: what have we learnt?116-32
29Newton’s Alchemy and His Theory of Matter114-36
30Second Report of proceedings in the Cambridge Observatory relating to the new Planet (Neptune)58-16
31Formation of gas and ice giant planets58-16
32PLANETARY SCIENCE:Neptune May Crush Methane Into Diamonds58-16
33Ultraviolet Spectrometer Observations of Neptune and Triton58-16
34Ultraviolet observations of Uranus and Neptune58-16
35Convective-region geometry as the cause of Uranus’ and Neptune’s unusual magnetic fields58-16
36Towards a theory for Neptune’s arc rings58-16
37Five stellar occultations by Neptune: Further observations of ring arcs58-16
38Neptune’s Partial Rings: Action of Galatea on Self-Gravitating Arc Particles58-16
39Neptune’s Wind Speeds Obtained by Tracking Clouds in Voyager Images58-16
40Evidence for methane escape and strong seasonal and dynamical perturbations of Neptune’s atmospheric temperatures58-16
41Hubble Space Telescope Imaging of Neptune’s Cloud Structure in 199458-16
42The altitude of Neptune cloud features from high-spatial-resolution near-infrared spectra58-16
43EPIC Simulations of Time-Dependent, Three-Dimensional Vortices with Application to Neptune’s Great Dark Spot58-16
44The atmosphere of Neptune - an analysis of radio occultation data acquired with Voyager 258-16
45The Centers of Planets58-16
46Interior Structure of Neptune: Comparison with Uranus58-16
47Collisional Erosion in the Primordial Edgeworth‐Kuiper Belt and the Generation of the 30–50 AU Kuiper Gap58-16
48Periodic Orbits in the 3:2 Orbital Resonance and Their Stability58-16
49Resonance Occupation in the Kuiper Belt: Case Examples of the 52 and Trojan Resonances58-16
50Detection of a Trailing (L5) Neptune Trojan: Fig. 158-16
51The Formation of Uranus and Neptune among Jupiter and Saturn58-16
52Mass Distribution and Planet Formation in the Solar Nebula58-16
53Resolved debris disc emission around η Telescopii: a young solar system or ongoing planet formation?58-16
54Neptune’s capture of its moon Triton in a binary–planet gravitational encounter58-16
55Temperature and Thermal Emissivity of the Surface of Neptune’s Satellite Triton58-16
56Discovery of five irregular moons of Neptune58-16
57On the rotation period of Neptune58-16
58High-Resolution Infrared Imaging of Neptune from the Keck Telescope58-16
59An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III500
60The biology of influenza viruses26-8
61Realities and enigmas of human viral influenza: pathogenesis, epidemiology and control26-8
62Inactivation of influenza A viruses in the environment and modes of transmission: A critical review26-8
63A history of influenza26-8
64The evolution of human influenza viruses21-6
65Non-pharmaceutical public health interventions for pandemic influenza: an evaluation of the evidence base21-6
66Understanding the symptoms of the common cold and influenza16-4
67Does This Patient Have Influenza?16-4
68Guillain‐Barré Syndrome and Influenza Virus Infection16-4
69Transmission of influenza A in human beings10-3
70The Pathology of Influenza Virus Infections10-3
71The Gene Structure and Replication of Influenza Virus10-3
72Recent Strategies in the Search for New Anti-Influenza Therapies10-3
73Influenza: Evolving Strategies in Treatment and Prevention10-3
74Functional balance between haemagglutinin and neuraminidase in influenza virus infections10-3
75Role of Hemagglutinin Cleavage for the Pathogenicity of Influenza Virus10-3
76The M2 Proton Channels of Influenza A and B Viruses10-3
77A ’small-world-like’ model for comparing interventions aimed at preventing and controlling influenza pandemics10-3
78Survival of Influenza Virus on Banknotes10-3
79Pathology, Molecular Biology, and Pathogenesis of Avian Influenza A (H5N1) Infection in Humans10-3
80Current and future antiviral therapy of severe seasonal and avian influenza10-3
81Respiratory tract infections: another reason not to smoke.10-3
82Chemotherapeutic control of influenza10-3
83Postinfluenza Bacterial Pneumonia: Host Defenses Gone Awry5-1
84The Effect of Various Disinfectants on Detection of Avian Influenza Virus by Real Time RT-PCR5-1
85Physical interventions to interrupt or reduce the spread of respiratory viruses5-1
86Mortality due to Influenza in the United States—An Annualized Regression Approach Using Multiple-Cause Mortality Data5-1
87Respiratory Syncytial Virus and Parainfluenza Virus5-1
88Avian influenza A virus (H7N7) associated with human conjunctivitis and a fatal case of acute respiratory distress syndrome5-1
89Influenza B Virus in Seals5-1
90Comparison of the Mutation Rates of Human Influenza A and B Viruses5-1
91Epidemiology and pathogenesis of influenza5-1
92Antigenic and Genetic Characterization of Influenza C Viruses Which Caused Two Outbreaks in Yamagata City, Japan, in 1996 and 19985-1
93Clinical Features of Influenza C Virus Infection in Children5-1
94Large-scale sequencing of human influenza reveals the dynamic nature of viral genome evolution5-1
95Sialobiology of Influenza: Molecular Mechanism of Host Range Variation of Influenza Viruses5-1
96How Viruses Enter Animal Cells5-1
97Visualizing infection of individual influenza viruses5-1
98Trafficking of viral genomic RNA into and out of the nucleus: influenza, Thogoto and Borna disease viruses5-1
99Hijacking of the host-cell response and translational control during influenza virus infection5-1
100Assembly and budding of influenza virus5-1
101Rates of spontaneous mutation among RNA viruses.5-1
102Natural Course of Fever During Influenza Virus Infection in Children5-1
103Acute Fever and Petechial Rash Associated with Influenza A Virus Infection5-1
104Influenza in children5-1
105GASTRIC ’FLU INFLUENZA B CAUSING ABDOMINAL SYMPTOMS IN CHILDREN5-1
106Review of clinical symptoms and spectrum in humans with influenza A/H5N1 infection5-1
107Clinical Signs and Symptoms Predicting Influenza Infection5-1
108Cost-effectiveness of newer treatment strategies for influenza5-1
109Diagnosis and Treatment of influenza5-1
110Mathematical models of infectious disease transmission5-1
111The Spread of Influenza and Other Respiratory Viruses: Complexities and Conjectures5-1
112Characterization of infectious aerosols in health care facilities: An aid to effective engineering controls and preventive strategies5-1
113Low Plasma Levels of Adrenocorticotropic Hormone in Patients with Acute Influenza5-1
114Evolving complexities of influenza virus and its receptors5-1
115H5N1 Virus Attachment to Lower Respiratory Tract5-1
116Influenza virus receptors in the human airway5-1
117Human and Avian Influenza Viruses Target Different Cells in the Lower Respiratory Tract of Humans and Other Mammals5-1
118Interleukin-1 Is Responsible for Acute Lung Immunopathology but Increases Survival of Respiratory Influenza Virus Infection5-1
119Viral-Induced Rhinitis5-1
120Induction of proinflammatory cytokines in human macrophages by influenza A (H5N1) viruses: a mechanism for the unusual severity of human disease?5-1
121Aberrant innate immune response in lethal infection of macaques with the 1918 influenza virus5-1
122Genomic analysis of increased host immune and cell death responses induced by 1918 influenza virus5-1
123The challenge of avian influenza to the veterinary community5-1
124Whole-Genome Analysis of Human Influenza A Virus Reveals Multiple Persistent Lineages and Reassortment among Recent H3N2 Viruses5-1
125Efficacy of Soap and Water and Alcohol‐Based Hand‐Rub Preparations against Live H1N1 Influenza Virus on the Hands of Human Volunteers5-1
126Face mask use and control of respiratory virus transmission in households5-1
127Transmission of Influenza: Implications for Control in Health Care Settings5-1
128Cigarette Smoking as a Risk Factor for Epidemic A(H1N1) Influenza in Young Men5-1
129Contamination, Disinfection, and Cross-Colonization: Are Hospital Surfaces Reservoirs for Nosocomial Infection?5-1
130Public health interventions and epidemic intensity during the 1918 influenza pandemic5-1
131The effect of public health measures on the 1918 influenza pandemic in U.S. cities5-1
132Reye syndrome---insights on causation and prognosis5-1
133Resistance to anti-influenza drugs: adamantanes and neuraminidase inhibitors5-1
134Neuraminidase Inhibitors for Influenza5-1
135Neuraminidase inhibitors for preventing and treating influenza in healthy adults5-1
136H5N1 Influenza — Continuing Evolution and Spread5-1
137Incidence of adamantane resistance among influenza A (H3N2) viruses isolated worldwide from 1994 to 2005: a cause for concern5-1
138Detection of amantadine-resistant variants among avian influenza viruses isolated in North America and Asia5-1
139Use of antiviral drug in poultry is blamed for drug resistant strains of avian flu5-1
140Prevention and Treatment of Influenza in Immunocompromised Patients5-1
141Prevention and Treatment of Influenza in High‐Risk Groups: Children, Pregnant Women, Immunocompromised Hosts, and Nursing Home Residents5-1
142Safety of trivalent inactivated influenza vaccines in adults: Background for pandemic influenza vaccine safety monitoring5-1
143Investigation of the Temporal Association of Guillain-Barre Syndrome With Influenza Vaccine and Influenzalike Illness Using the United Kingdom General...5-1
144Influenza Virus Transmission Is Dependent on Relative Humidity and Temperature5-1
145Absolute humidity modulates influenza survival, transmission, and seasonality5-1
146Absolute Humidity and the Seasonal Onset of Influenza in the Continental United States5-1
147Epidemiology and seasonality of respiratory tract virus infections in the tropics5-1
148Dynamical resonance can account for seasonality of influenza epidemics5-1
149Epidemic influenza and vitamin D5-1
150Mortality Associated With Influenza and Respiratory Syncytial Virus in the United States5-1
151Influenza-Associated Hospitalizations in the United States5-1
152Estimation of potential global pandemic influenza mortality on the basis of vital registry data from the 1918–20 pandemic: a quantitative analysis5-1
153Long intervals of stasis punctuated by bursts of positive selection in the seasonal evolution of influenza A virus5-1
154THE ORIGINS OF NEW PANDEMIC VIRUSES: The Acquisition of New Host Ranges by Canine Parvovirus and Influenza A Viruses5-1
155The generation of influenza outbreaks by a network of host immune responses against a limited set of antigenic types5-1
156Swine Flu5-1
157The Earliest American Epidemic: The Influenza of 14935-1
158Utilities in the sky?: Comparison of space-based and terrestrial solar power systems5-1
159Integrating historical, clinical and molecular genetic data in order to explain the origin and virulence of the 1918 Spanish influenza virus5-1
160Transmissibility and geographic spread of the 1889 influenza pandemic5-1
161Transmissibility of 1918 pandemic influenza5-1
162Mortality from pandemic A/H1N1 2009 influenza in England: public health surveillance study5-1
163A VIRUS OBTAINED FROM INFLUENZA PATIENTS5-1
164Vaccine Innovation: Lessons from World War II5-1
165Vaccines against Avian Influenza — A Race against Time5-1
166Influenza vaccines: recent advances in production technologies5-1
167A universal influenza A vaccine based on the extracellular domain of the M2 protein5-1
168Soluble recombinant influenza vaccines5-1
169A “universal” human influenza A vaccine5-1
170Performance of clinical signs in poultry for the detection of outbreaks during the avian influenza A (H7N7) epidemic in The Netherlands in 20035-1
171Evaluation of Pathogenic Potential of Avian Influenza Virus Serotype H9N2 in Chickens5-1
172Genesis of a highly pathogenic and potentially pandemic H5N1 influenza virus in eastern Asia5-1
173The Influenza Virus Enigma5-1
174Cases of Swine Influenza in Humans: A Review of the Literature5-1

Popularity and reliability assessment of sources in references of Wikipedia in different languages. Data extraction based on complex method using Wikimedia dumps in July 2020. More details in the research "Modeling Popularity and Reliability of Sources in Multilingual Wikipedia". Values for PR-score and AR-score were additinaly increased 100 times (to distinguish smaller values in the ranking).

Useful links: