Freeview Light on the Dorking (Surrey, England) transmitter
Brian Butterworth first published this on - UK Free TV
Google map | Bing map | Google Earth | 51.221,-0.327 or 51°13'16"N 0°19'39"W | RH4 2AW |
The symbol shows the location of the Dorking (Surrey, England) transmitter which serves 3,700 homes. The bright green areas shown where the signal from this transmitter is strong, dark green areas are poorer signals. Those parts shown in yellow may have interference on the same frequency from other masts.
This transmitter has no current reported problems
The BBC and Digital UK report there are no faults or engineering work on the Dorking (Surrey, England) transmitter._______
Digital television services are broadcast on a multiplexes (or Mux) where many stations occupy a single broadcast frequency, as shown below.
H/V: aerial position (horizontal or vertical)
The Dorking (Surrey, England) mast is a public service broadcasting (PSB) transmitter, it does not provide these commercial (COM) channels: U&Yesterday, 4seven, 5Action, 5STAR, 5USA, Al Jazeera Eng, Al Jazeera English, Blaze, Blaze +1, Challenge, Channel 5 +1, DMAX, E4 Extra, YAAAS!, Film4 +1, Food Network, FRANCE 24 (in English), GREAT! action, GREAT! christmas, GREAT! movies, GREAT! romance mix, HGTV, HobbyMaker, ITV2 +1, ITV3 +1, ITV4 +1, ITVBe +1, Legend, PBS America, Quest +1, Quest Red, Really, Sky Mix, Sky News, Talking Pictures TV, That's 90s, That's TV 2, Together TV, TRUE CRIME, TRUE CRIME XTRA, U&Dave, U&Dave ja vu, U&Drama +1, U&W.
If you want to watch these channels, your aerial must point to one of the 80 Full service Freeview transmitters. For more information see the will there ever be more services on the Freeview Light transmitters? page.
Which Freeview channels does the Dorking transmitter broadcast?
If you have any kind of Freeview fault, follow this Freeview reset procedure first.Digital television services are broadcast on a multiplexes (or Mux) where many stations occupy a single broadcast frequency, as shown below.
Mux | H/V | Frequency | Height | Mode | Watts |
PSB1 BBCA | H max V -3.1dB | C44 (658.0MHz) | 149m | DTG- | 9W 4W |
1 BBC One (SD) London, 2 BBC Two England, 9 BBC Four, 23 BBC Three, 201 CBBC, 202 CBeebies, 231 BBC News, 232 BBC Parliament, plus 16 others | |||||
PSB2 D3+4 | H max V -3.1dB | C41 (634.0MHz) | 149m | DTG- | 9W 4W |
3 ITV 1 (SD) (London), 4 Channel 4 (SD) London ads, 5 Channel 5, 6 ITV 2, 10 ITV3, 13 E4, 14 Film4, 15 Channel 4 +1 London ads, 18 More4, 26 ITV4, 28 ITVBe, 30 E4 +1, 35 ITV1 +1 (London), 71 That’s 60s, | |||||
PSB3 BBCB | H max V -3.1dB | C47 (682.0MHz) | 149m | DTG- | 9W 4W |
46 5SELECT, 101 BBC One HD London, 102 BBC Two HD England, 103 ITV 1 HD (ITV London), 104 Channel 4 HD London ads, 105 Channel 5 HD, 106 BBC Four HD, 107 BBC Three HD, 204 CBBC HD, 205 CBeebies HD, plus 1 others |
Are you trying to watch these 44 Freeview channels?
The Dorking (Surrey, England) mast is a public service broadcasting (PSB) transmitter, it does not provide these commercial (COM) channels: U&Yesterday, 4seven, 5Action, 5STAR, 5USA, Al Jazeera Eng, Al Jazeera English, Blaze, Blaze +1, Challenge, Channel 5 +1, DMAX, E4 Extra, YAAAS!, Film4 +1, Food Network, FRANCE 24 (in English), GREAT! action, GREAT! christmas, GREAT! movies, GREAT! romance mix, HGTV, HobbyMaker, ITV2 +1, ITV3 +1, ITV4 +1, ITVBe +1, Legend, PBS America, Quest +1, Quest Red, Really, Sky Mix, Sky News, Talking Pictures TV, That's 90s, That's TV 2, Together TV, TRUE CRIME, TRUE CRIME XTRA, U&Dave, U&Dave ja vu, U&Drama +1, U&W.
If you want to watch these channels, your aerial must point to one of the 80 Full service Freeview transmitters. For more information see the will there ever be more services on the Freeview Light transmitters? page.
Which BBC and ITV regional news can I watch from the Dorking transmitter?
BBC London 4.9m homes 18.4%
from London W1A 1AA, 35km north-northeast (19°)
to BBC London region - 55 masts.
ITV London News 4.9m homes 18.4%
from London WC1X 8XZ, 37km north-northeast (22°)
to ITV London region - 55 masts.
How will the Dorking (Surrey, England) transmission frequencies change over time?
1984-97 | 1997-98 | 1998-2012 | 2012-13 | 31 Mar 2018- | |||||
B E T | B E T | B E T | B E K T | B E K T | |||||
C41 | ITVwaves | ITVwaves | ITVwaves | D3+4 | D3+4 | ||||
C44 | BBC2waves | BBC2waves | BBC2waves | BBCA | BBCA | ||||
C47 | C4waves | C4waves | C4waves | BBCB | BBCB | ||||
C51tv_off | BBC1waves | BBC1waves | BBC1waves |
tv_off Being removed from Freeview (for 5G use) after November 2020 / June 2022 - more
Table shows multiplexes names see this article;
green background for transmission frequencies
Notes: + and - denote 166kHz offset; aerial group are shown as A B C/D E K W T
waves denotes analogue; digital switchover was 4 Apr 12 and 18 Apr 12.
How do the old analogue and currrent digital signal levels compare?
Analogue 1-4 | 33W | |
PSB1≡, PSB2≡, PSB3≡ | (-5.6dB) 9W | |
PSB1||, PSB2||, PSB3|| | (-8.8dB) 4.4W |
Which companies have run the Channel 3 services in the Crystal Palace transmitter area
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Thursday, 7 April 2011
M
Mike Dimmick9:11 PM
BBC B on the VP aerials should be 4.4W, the same as BBC A and D3&4.
I guess you can't show the HP and VP analogue power levels separately? HP should be 45W and VP 22W according to UK Television Reception Advice . An old IBA booklet had 55/14. (RG47SH)
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Saturday, 9 April 2011
Mike Dimmick: The database can't deal with it at the moment, I will look into it.
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Wednesday, 20 February 2013
M
Mike9:58 AM
I live in Claygate Road, Dorking, just behind the Glory Woods, and having just moved into the house from about 1 mile away in North Holmwood I was surprised to find that the tv signal is far worse, despite being higher up on a hill (less channels are received and the signal quickly degrades to become unwatchable, pictures freeze etc and then disappear to be replaced by 'no signal' or 'signal cannot be decoded' messages). I am assuming that the hills and woods in the area may be responsible, despite the house being situated higher up than my old house. The aerial on the house appears to be the old style yagi type, and it is much lower down than neighbouring houses (they are on poles about 6-8 feet higher). Would I benefit from switching to a high gain aerial on a longer pole, and roughly how much might this cost? I don't particularly want to have to get cable or Sky, although the previous owneres had Sky, possibly because of the freeview signal issues, as I am content with the channels offered by Freeview, or would be if I could watch them!!.
Thanks
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Mike: Firstly, looking at the aerials on Claygate Road via Streetview, there are a number of transmitters being used. The first thing to do is ensure that the TV is tuned to the transmitter to which the aerial faces.
The Dorking relay transmitter is close by:
mb21 - The Transmission Gallery
It is within the trees and is visible from Streetview. It could be that your TV has tuned to it for PSB channels and it is this that you need to correct.
If you're on another transmitter, then I guess that it's likely to be Crystal Palace or Reigate. The tower blocks may be acting to block these transmitters for some of the houses on Claygate Road.
Crystal Palace and Reigate broadcast all Freeview channels, and Dorking only carries PSB channels. For a list of Freeview services (including which are PSB and which are COM) see:
DTG :: DTT Services by Multiplex
Dorking broadcasts on 44, 41 and 47(HD)
Crystal Palace's are 23, 26, 30(HD), 25, 22, 28
Reigate's are 60, 57, 53(HD), 21, 24, 27
These numbers are the UHF channel numbers of each multiplex (mux): PSB1, PSB2, PSB3(HD), COM4, COM5, COM6, respectively. Most receives give UHF/RF channel numbers, but some anti-quated ones only give frequencies in MHz, so you will have to convert. The frequencies are given by this website on each transmitter's page.
Whilst viewing one service from each mux, bring up the signal strength. So check BBC One, ITV, BBC One HD, ITV3, Pick TV and Film4 (these are the first services from each mux).
If you find that the PSBs from Dorking have been tuned in when they should be from Reigate or Crystal Palace, then unplugging the aerial during the middle part of the scan should hopefully do. I say "hopefully" because it might be that the signal from Dorking is that strong that it picks them up with no aerial, for that reason it's probably best to unplug the aerial lead where it goes into your TV/box rather than at the wall socket.
Crystal Palace's channels are in the bottom third of the band, so unplugging at 30% and leaving it out until the end of the scan will do. For Reigate, unplug at 30% and then plug in again at 58% so as to miss out Dorking, in the middle.
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Mike: The bearings for the transmitters are:
Crystal Palace 36 degrees, aerial horizontal
Reigate 65 degrees, aerial vertical
There also appear to be a few horizontally-polarised aerials pointing to Heathfield which is at 123 degrees. The Streetview photos were taken before switchover, in March 2009. If I'm correct, number 22 and a few others may have found that PSB3, COM5 and COM6 are unavailable as they are co-channel with Dorking's.
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M
Mike1:52 PM
Thanks Dave, I'll have a look and see where my aerial is pointing and go from there. I'm pretty sure it's not pointing towards the dorking relay as that is opposite the front of my house and up the hill behind the trees. I think it's pointing out from the back of the house, sort of south east ish, so possibly it's looking over to the Heathfield array. Once I know where it's looking, I'll see if I can retune using your method above and see if that helps. I have noticed when retuning when I moved in that I ended up with about 5 channels for a couple of days, and then it picked up more; sometimes what I can actually see does vary, not sure why that is but I guess it could just be a poor signal area. Anyway, I'll let you know how I get on - no doubt I'll probably have more questions ;-)
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Saturday, 6 July 2019
Magnetic field (MF) non-ionizing radiation is a ubiquitous environmental exposure and a serious looming public health challenge. MFs are emitted from both traditional sources that generate low frequency MFs (e.g., power lines, appliances, transformers, etc.) and from emerging sources that generate higher frequency MFs (e.g., wireless networks, smart meter networks, cell towers, wireless devices such as cell phones, etc.). Humans are now widely exposed to MF with ever-increasing intensity, due to the proliferation of MF-generating apparatuses.
The steep increase in MF exposure has renewed concerns about the potential health effects of this invisible, man-made environmental exposure. A recent NIEHS multi-year project conducted by the National Toxicology Program (NTP) has revealed an increased risk of cancer associated with MF non-ionizing radiation exposure1,2. More specifically, the NTP study found that the cancer risk due to MF exposure observed in their experimental animals matched the cancer cell types that had been reported in previous epidemiologic studies in human populations1. This finding has made it more difficult to continue to dismiss possible biological effects of MF exposure. Such outright dismissal could be especially troublesome given the high prevalence of human exposure (with almost everyone being exposed to MF non-ionizing radiation to some degree). This includes vulnerable populations such as pregnant women and young children. The International Agency for Research on Cancer (IARC) has classified MF as a possible carcinogen3,4.
Miscarriage is one of the potential adverse health outcomes that are sensitive to MF exposure and also an endpoint that the WHO has recommended to be further studied in the context of MF health effects5. Over the years, a few observational studies in human populations have suggested a possible link between MF exposure during pregnancy and an increased risk of miscarriage6,7,8,9,10,11 including two studies published in 2002 that increased the public awareness of such an association12,13. In addition, one study examined human embryonic tissues to assess the association between EMF exposure and embryonic growth, and observed an increased risk of impaired embryonic bud growth and apoptosis associated with exposure to higher MF level14, providing some direct evidence of adverse biological impact of EMF exposure on embryonic development.
Nevertheless, the association between MF exposure and risk of miscarriage remains largely unknown and overlooked. We conducted this prospective cohort study among a large population of pregnant women to further examine whether exposure to MF non-ionizing radiation during pregnancy increases the risk of miscarriage.
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Peer Reviewed Scientific Research On Wireless Radiation
Published Research Links Cell Phone and Wireless To Health Effects
Cell phones and wireless expose people to a type of microwave radiation also known as radiofrequency radiation or RF-EMF. Peer reviewed research has demonstrated a myriad of adverse biological effects from wireless radiation including reproductive dysfunction, single- and double-stranded DNA breaks, creation of reactive oxygen species, immune dysfunction, stress protein synthesis in the brain, altered brain development, sleep and memory disturbances, and increased brain tumors.
Waiting for high levels of scientific and clinical proof before taking action to prevent well-known risks can lead to very high health and economic costs, as was the case with asbestos, leaded petrol and tobacco. The European Commission
These effects have occurred at wireless radiation exposure levels hundreds of times lower than presently legal international limits. These effects have occurred after exposure to devices that are government approved and legally sold to the public.
Scientific data on the biological effects of radiofrequency indicate the immediate need for a precautionary approach to protect the public. Conclusive proof is not necessary. The research has accumulated enough to provide strong evidence that low levels are not safe.
Below we have a short summary and if you click on the drop down tab- a list of scientific references as documentation. These are a small example of the numerous studies that have been done.
We also recommend these research compilations:
The Bioinitiative Report 2012
Annotated Bibliography of Scientific Papers Finding Evidence of Harm from Cell Phone Radiation Exposure Published between August, 2016 and July, 2018 Joel M. Moskowitz, Ph.D. School of Public Health University of California, Berkeley which contains 92 papers published in scientific journals during the last two years that report evidence of harm from cell phone radiation exposure.
PowerWatch: 1,670 Peer-Reviewed Scientific Papers on Electromagnetic Fields and Biology or Health
This list is a compilation of citations for 1,670 peer-reviewed scientific papers about electromagnetic fields (EMF) published in scientific journals from 1979 through 2018. The list includes all papers that PowerWatch published on its website as of October 11, 2018.
5G: Great risk for EU, U.S. and International Health! Compelling Evidence for Eight Distinct Types of Great Harm Caused by Electromagnetic Field (EMF) Exposures and the Mechanism that Causes Them by Dr. Martin Pall
Scientific Evidence Documenting Increased Cancer From Exposure
The research evidence indicates that long term use of cell phones and wireless increase the risk of cancer risk. Independent longitudinal research has consistently shown that heavy (30 min/day) cellphone users have an increased risk of brain cancer. Such research lead to the World Health Organization's International Agency for the Research on Cancer to classify this radiation as a Class 2 B Possible Human Carcinogen in 2011. Since 2011, the evidence has increased.
A disservice has been done in inaccurately depicting the body of science, which actually indicates that there are biological effects from the radiation emitted by wireless devices, including damage to DNA, and evidence for increased risk of cancer and other substantial health consequences...The public the world over has been misled by this reporting. Dr. Ronald B. Herberman
Dr. Hardell's research showed that adults who started using cell or cordless phones as teenagers had an 8-fold higher risk of brain cancer on the side of their head where they held the phone. A French study also found increased brain cancer in long term cell phone users. To date, the only published study of children's risk of brain cancer from cell phone use found more than a 2-fold risk after >2.8 years of use (from billing records), combined with a statistically significant trend of increasing risk with increasing years of use.
In 2015 Lerchl et al published an important replication study which confirms that wireless acts as a tumor promoter. In this important study, lymphomas and tumors of the lungs and livers in exposed animals were significantly higher. The wireless exposure was at low to moderate exposure levels well below exposure limits for the users of mobile phones.This research is significant in that it used a larger group of mice and replicated tumor-promoting effects shown in a 2010 study.
Neurotoxic Effects
Experimental research shows chronic exposure to wireless reduces brain cells and causes brain cell death in the memory and learning centers of the brain. Cell phone radiation has also been shown to alter brain activity in humans. In 2011, NIH research found just 50 minutes of a wireless transmitting device (cell phone) next to the brain increases glucose in the part of the brain most exposed. Preliminary 3G and 4G research has further shown that non-thermal levels of this radiation alter the brain's electrical activity.
Cognition and Impaired Memory
Yale University research found prenatally exposed pups had impaired memory, increased hyperactivity, and altered brainsconsistent with a growing literature. Many studies have now demonstrated that wireless signals can damage cognitive abilities such as learning, memory, attention, and reaction times.
We have shown that behavioral problems in mice that resemble ADHD are caused by cell phone exposure in the womb, said Dr. Hugh Taylor of Yale Medical School. The rise in behavioral disorders in human children may be in part due to fetal cellular telephone irradiation exposure.
Behavioral Issues
Epidemiological studies have shown associations between exposures and behavioral issues in children (and experimental test subjects). For example, a recent study showed a significant dose-response relationship between the number and duration of voice calls made on cell phones and ADHD risk among children who were also exposed to lead in their environment. Exposure to cell phones prenatally and postnatally is associated with behavioral difficulties such as emotional and hyperactivity problems.
Genotoxic Effects
Radiation at extremely low levels (0.0001 the level emitted by the average digital cellular telephone) caused heart attacks and the deaths of some chicken embryos...independent, third-party peer-reviewed studies need to be conducted in the U.S. to begin examining the effects from radiation on migratory birds and other trust species. Willie Taylor, US Department of the Interior in his February 2014 letter to Mr. Eli Veenendaal of the National Telecommunications and Information Administration, U.S. Dept. of Commerce.
Studies at non-thermal (no measurable temperature change) levels of microwave exposures show chromosomal instability, altered gene expression, gene mutations, DNA fragmentation, and DNA structural breaks. Genetic mutations and cellular damage can potentially contribute to cancer growth. Strong effects from microwaves have been found in stem cells. Since stem cells are more active in children, researchers are concerned that children are at increased risk.
While electromagnetic fields may not directly damage DNA, research indicates they could set into motion a series of biological impacts that result in genetic damage.
A 2015 experimental study found that 2.4 GHz (Wi-Fi radiation) can alter expression of some of the miRNAs, and the study's authors concluded that long-term exposure of 2.4 GHz RF may lead to adverse effects such as neurodegenerative diseases originated from the alteration of some miRNA expression and more studies should be devoted to the effects of RF radiation on miRNA expression levels.
Dr. Lai analyzed research since 2006 and found there are more papers reporting effects from exposure than no effect: New radiofrequency studies report that 65% of genetic studies show effects and 35% do not show effects.
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Scientific documentation outlining the dangers of Radio Transmitters and EMF Radio frequencies........
- Baste V et al, (January 2010) Radiofrequency exposure on fast patrol boats in the Royal Norwegian Navy-an approach to a dose assessment, Bioelectromagnetics. 2010 Jan 6. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
P Sirav B et al, (2009) Radio frequency radiation (RFR) from TV and radio transmitters at a pilot region in Turkey, Radiat Prot Dosimetry. 2009;136(2):114-7. Epub 2009 Aug 11 [View Author's abstract conclusions] [View on Pubmed]
P Viel JF et al, (August 2009) Radiofrequency exposure in the French general population: band, time, location and activity variability, Environ Int. 2009 Nov;35(8):1150-4. Epub 2009 Aug 4 [View Author's abstract conclusions] [View on Pubmed]
P Huttunen P et al, (March 2009) FM-radio and TV tower signals can cause spontaneous hand movements near moving RF reflector, Pathophysiology. 2009 Mar 4. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
N Merzenich H et al, (October 2008) Childhood Leukemia in Relation to Radio Frequency Electromagnetic Fields in the Vicinity of TV and Radio Broadcast Transmitters, Am J Epidemiol. 2008 Oct 3. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
P Baste V et al, (April 2008) Radiofrequency electromagnetic fields; male infertility and sex ratio of offspring, Eur J Epidemiol. 2008 Apr 16 [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
P Clark ML et al, (October 2007) Biomonitoring of estrogen and melatonin metabolites among women residing near radio and television broadcasting transmitters, J Occup Environ Med. 2007 Oct;49(10):1149-56 [View Author's abstract conclusions] [View on Pubmed]
P Ha M et al, (August 2007) Radio-frequency radiation exposure from AM radio transmitters and childhood leukemia and brain cancer, Am J Epidemiol. 2007 Aug 1;166(3):270-9 [View Author's abstract conclusions] [View on Pubmed]
P Reif JS et al, (August 2005) Human responses to Residential RF exposure, 2 RO1 ES0008117-04 [View Author's abstract conclusions]
P Hallberg O, Johansson O, (2005) FM broadcasting exposure time and malignant melanoma incidence, Electromagnetic Biology and Medicine 24; 1-8 [View Author's abstract conclusions]
P Park SK et al, (August 2004) Ecological study on residences in the vicinity of AM radio broadcasting towers and cancer death: preliminary observations in Korea, Int Arch Occup Environ Health. 2004 Aug;77(6):387-94 [View Author's abstract conclusions] [View on Pubmed]
P Hallberg O, Johansson O, (July 2004) Malignant melanoma of the skin - not a sunshine story!, Med Sci Monit. 2004 Jul;10(7):CR336-40 [View Author's abstract conclusions] [View on Pubmed]
P Ha M et al, (December 2003) Incidence of cancer in the vicinity of Korean AM radio transmitters, Arch Environ Health. 2003 Dec;58(12):756-62 [View Author's abstract conclusions] [View on Pubmed]
P Hocking B, Gordon I, (September 2003) Decreased survival for childhood leukemia in proximity to television towers, Arch Environ Health. 2003 Sep;58(9):560-4 [View Author's abstract conclusions] [View on Pubmed]
P Michelozzi P et al, (June 2002) Adult and childhood leukemia near a high-power radio station in Rome, Italy, Am J Epidemiol. 2002 Jun 15;155(12):1096-103 [View Author's abstract conclusions] [View on Pubmed]
P Hallberg O, Johansson O, (January 2002) Melanoma incidence and frequency modulation (FM) broadcasting, Arch Environ Health. 2002 Jan-Feb;57(1):32-40 [View Author's abstract conclusions] [View on Pubmed]
P Michelozzi P et al, (November 2001) Leukemia mortality and incidence of infantile leukemia near the Vatican Radio Station of Rome, Epidemiol Prev. 2001 Nov-Dec;25(6):249-55 [View Author's abstract conclusions] [View on Pubmed]
P Lalic H et al, (April 2001) Comparison of chromosome aberrations in peripheral blood lymphocytes from people occupationally exposed to ionizing and radiofrequency radiation, Acta Med Okayama. 2001 Apr;55(2):117-27 [View Author's abstract conclusions] [View on Pubmed]
P Stang A et al, (January 2001) The possible role of radiofrequency radiation in the development of uveal melanoma, Epidemiology. 2001 Jan;12(1):7-12 [View Author's abstract conclusions] [View on Pubmed]
P Richter E et al, (July 2000) Cancer in radar technicians exposed to radiofrequency/microwave radiation: sentinel episodes, Int J Occup Environ Health. 2000 Jul-Sep;6(3):187-93 [View Author's abstract conclusions] [View on Pubmed]
- Reeves GI, (March 2000) Review of extensive workups of 34 patients overexposed to radiofrequency radiation, Aviat Space Environ Med. 2000 Mar;71(3):206-15 [View Author's abstract conclusions] [View on Pubmed]
P Moszczynski P et al, (1999) The effect of various occupational exposures to microwave radiation on the concentrations of immunoglobulins and T lymphocyte subsets, Wiad Lek. 1999;52(1-2):30-4 [View Author's abstract conclusions] [View on Pubmed]
P Dmoch A, Moszczynski P, (1998) Levels of immunoglobulin and subpopulations of T lymphocytes and NK cells in men occupationally exposed to microwave radiation in frequencies of 6-12 GHz, Med Pr. 1998;49(1):45-9 [View Author's abstract conclusions] [View on Pubmed]
P Szmigielski S et al, (1998) Alteration of diurnal rhythms of blood pressure and heart rate to workers exposed to radiofrequency electromagnetic fields, Blood Press Monit. 1998;3(6):323-30 [View Author's abstract conclusions] [View on Pubmed]
P Duan L et al, (March 1998) Observations of changes in neurobehavioral functions in workers exposed to high-frequency radiation, Zhonghua Yu Fang Yi Xue Za Zhi. 1998 Mar;32(2):109-11 [View Author's abstract conclusions] [View on Pubmed]
P Hjollund NH et al, (November 1997) Semen analysis of personnel operating military radar equipment, Reprod Toxicol. 1997 Nov-Dec;11(6):897 [View Author's abstract conclusions] [View on Pubmed]
- Lagorio S et al, (1997) Mortality of plastic-ware workers exposed to radiofrequencies, Bioelectromagnetics. 1997;18(6):418-21 [View Author's abstract conclusions] [View on Pubmed]
P Schilling CJ, (April 1997) Effects of acute exposure to ultrahigh radiofrequency radiation on three antenna engineers, Occup Environ Med. 1997 Apr;54(4):281-4 [View Author's abstract conclusions] [View on Pubmed]
P Bortkiewicz A et al, (March 1997) Ambulatory ECG monitoring in workers exposed to electromagnetic fields, J Med Eng Technol. 1997 Mar-Apr;21(2):41-6 [View Author's abstract conclusions] [View on Pubmed]
- Dolk H et al, (January 1997) Cancer incidence near radio and television transmitters in Great Britain. II. All high power transmitters, Am J Epidemiol. 1997 Jan 1;145(1):10-7. [View Author's abstract conclusions] [View on Pubmed]
P Dolk H et al, (January 1997) Cancer incidence near radio and television transmitters in Great Britain. I. Sutton Coldfield transmitter, Am J Epidemiol. 1997 Jan 1;145(1):1-9 [View Author's abstract conclusions] [View on Pubmed]
P Hocking B et al, (December 1996) Cancer incidence and mortality and proximity to TV towers, Med J Aust. 1996 Dec 2-16;165(11-12):601-5 [View Author's abstract conclusions] [View on Pubmed]
P Weyandt TB et al, (November 1996) Semen analysis of military personnel associated with military duty assignments, Reprod Toxicol. 1996 Nov-Dec;10(6):521-8 [View Author's abstract conclusions] [View on Pubmed]
P Bortkiewicz A et al, (July 1996) Heart rate variability in workers exposed to medium-frequency electromagnetic fields, J Auton Nerv Syst. 1996 Jul 5;59(3):91-7 [View Author's abstract conclusions] [View on Pubmed]
P Grayson JK, (March 1996) Radiation exposure, socioeconomic status, and brain tumor risk in the US Air Force: a nested case-control study, Am J Epidemiol. 1996 Mar 1;143(5):480-6 [View Author's abstract conclusions] [View on Pubmed]
P Tynes T et al, (March 1996) Incidence of breast cancer in Norwegian female radio and telegraph operators, Cancer Causes Control. 1996 Mar;7(2):197-204 [View Author's abstract conclusions] [View on Pubmed]
P Kolodynski AA, Kolodynska VV, (February 1996) Motor and psychological functions of school children living in the area of the Skrunda Radio Location Station in Latvia, Sci Total Environ. 1996 Feb 2;180(1):87-93 [View Author's abstract conclusions] [View on Pubmed]
- Holly EA et al, (January 1996) Intraocular melanoma linked to occupations and chemical exposures, Epidemiology. 1996 Jan;7(1):55-61 [View Author's abstract conclusions] [View on Pubmed]
N Guberan E et al, (October 1994) Gender ratio of offspring and exposure to shortwave radiation among female physiotherapists, Scand J Work Environ Health. 1994 Oct;20(5):345-8 [View Author's abstract conclusions] [View on Pubmed]
P Maskarinec G et al, (1994) Investigation of increased incidence in childhood leukemia near radio towers in Hawaii: preliminary observations, J Environ Pathol Toxicol Oncol. 1994;13(1):33-7 [View Author's abstract conclusions] [View on Pubmed]
P Goldoni J et al, (September 1993) Health status of personnel occupationally exposed to radiowaves, Arh Hig Rada Toksikol. 1993 Sep;44(3):223-8 [View Author's abstract conclusions] [View on Pubmed]
P Davis RL, Mostofi FK, (August 1993) Cluster of testicular cancer in police officers exposed to hand-held radar, Am J Ind Med. 1993 Aug;24(2):231-3 [View Author's abstract conclusions] [View on Pubmed]
P Holt JA, (June 1980) Changing epidemiology of malignant melanoma in Queensland, Med J Aust. 1980 Jun 14;1(12):619-20 [View Author's abstract conclusions] [View on Pubmed]
Powerlines and Substations, and other Powerfrequency EMF exposure
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P Juutilainen J et al, (May 2018) Magnetocarcinogenesis: is there a mechanism for carcinogenic effects of weak magnetic fields?, Proc Biol Sci. 2018 May 30;285(1879). pii: 20180590. doi: 10.1098/rspb.2018.0590 [View Author's abstract conclusions] [View on Pubmed]
P Shepherd S et al, (May 2018) Extremely Low Frequency Electromagnetic Fields impair the Cognitive and Motor Abilities of Honey Bees, Sci Rep. 2018 May 21;8(1):7932. doi: 10.1038/s41598-018-26185-y [View Author's abstract conclusions] [View on Pubmed]
- Halgamuge M, McLean L, (May 2018) Measurement and analysis of power-frequency magnetic fields in residences:, Measurement Volume 125, September 2018, Pages 415-424 [View Author's abstract conclusions]
P Huss A et al, (February 2018) Occupational exposure to extremely low-frequency magnetic fields and the risk of ALS: A systematic review and meta-analysis., Bioelectromagnetics. 2018 Feb;39(2):156-163. doi: 10.1002/bem.22104. Epub 2018 Jan 19. [View Author's abstract conclusions] [View on Pubmed]
P Li DK et al, (December 2017) Exposure to Magnetic Field Non-Ionizing Radiation and the Risk of Miscarriage: A Prospective Cohort Study., Sci Rep. 2017 Dec 13;7(1):17541. doi: 10.1038/s41598-017-16623-8. [View Author's abstract conclusions] [View on Pubmed]
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P Henshaw DL, (July 2002) Does our electricity distribution system pose a serious risk to public health?, Med Hypotheses. 2002 Jul;59(1):39-51 [View Author's abstract conclusions] [View on Pubmed]
P California EMF Program, (June 2002) An Evaluation of the Possible Risks From Electric and Magnetic Fields (EMFs) From Power Lines, Internal Wiring, Electrical Occupations and Appliances, [View Author's abstract conclusions]
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P Simko M et al, (August 2001) Micronucleus induction in Syrian hamster embryo cells following exposure to 50 Hz magnetic fields, benzo(a)pyrene, and TPA in vitro, Mutat Res. 2001 Aug 22;495(1-2):43-50 [View Author's abstract conclusions] [View on Pubmed]
P Beale IL et al, (August 2001) Association Of Health Problems With 50 -Hz Magnetic Fields In Human Adults Living Near Power Transmission Lines, Journal of the Australasian College of Nutritional & Environmental Mediciine, 20(2) August 2001 [View Author's abstract conclusions]
P Cano MI, Pollan M, (August 2001) Non-Hodgkin's lymphomas and occupation in Sweden, Int Arch Occup Environ Health. 2001 Aug;74(6):443-9 [View Author's abstract conclusions] [View on Pubmed]
P Ishido M et al, (July 2001) Magnetic fields (MF) of 50 Hz at 1.2 microT as well as 100 microT cause uncoupling of inhibitory pathways of adenylyl cyclase mediated by melatonin 1a receptor in MF-sensitive MCF-7 cells, Carcinogenesis. 2001 Jul;22(7):1043-8 [View Author's abstract conclusions] [View on Pubmed]
P van Wijngaarden E et al, (July 2001) Population-based case-control study of occupational exposure to electromagnetic fields and breast cancer, Ann Epidemiol. 2001 Jul;11(5):297-303 [View Author's abstract conclusions] [View on Pubmed]
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P Li X et al, (June 2001) Effects of low frequency pulsed electric field on insulin studied by fluorescent spectrum, Guang Pu Xue Yu Guang Pu Fen Xi. 2001 Jun;21(3):406-8 [View Author's abstract conclusions] [View on Pubmed]
P Wartenberg D, (2001) Residential EMF exposure and childhood leukemia: meta-analysis and population attributable risk, Bioelectromagnetics. 2001;Suppl 5:S86-104 [View Author's abstract conclusions] [View on Pubmed]
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P Cecconi S et al, (November 2000) Evaluation of the effects of extremely low frequency electromagnetic fields on mammalian follicle development, Hum Reprod. 2000 Nov;15(11):2319-25 [View Author's abstract conclusions] [View on Pubmed]
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P Johansen C, (September 2000) Exposure to electromagnetic fields and risk of central nervous system disease in utility workers, Epidemiology. 2000 Sep;11(5):539-43 [View Author's abstract conclusions] [View on Pubmed]
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Wi-Fi
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P Pall ML, (July 2018) Wi-Fi is an important threat to human health., Environ Res. 2018 Jul;164:405-416. doi: 10.1016/j.envres.2018.01.035. Epub 2018 Mar 21. [View Author's abstract conclusions] [View on Pubmed]
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P Balmori A, (June 2015) Anthropogenic radiofrequency electromagnetic fields as an emerging threat to wildlife orientation, Sci Total Environ. 2015 Jun 15;518-519:58-60. doi: 10.1016/j.scitotenv.2015.02.077. Epub 2015 Mar 4 [View Author's abstract conclusions] [View on Pubmed]
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P Dasdag S et al, (March 2015) Effects of 2.4 GHz radiofrequency radition emitted from WiFi equipment on microRNA expression in brain tissue, Int J Radiat Biol. 2015 Mar 16:1-26. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
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P Pilla AA, (September 2012) Electromagnetic fields instantaneously modulate nitric oxide signaling in challenged biological systems, Biochem Biophys Res Commun. 2012 Sep 28;426(3):330-3. doi: 10.1016/j.bbrc.2012.08.078. Epub 2012 Aug 24 [View Author's abstract conclusions] [View on Pubmed]
N Vijayalaxmi, Prihoda TJ, (September 2012) Genetic Damage in Human Cells Exposed to Non-ionizing Radiofrequency Fields: A Meta-Analysis of the Data from 88 Publications (1990-2011), Mutat Res. 2012 Sep 27. pii: S1383-5718(12)00286-0. doi: 10.1016/j.mrgentox.2012.09.007. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
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P Atasoy HI et al, (March 2012) Immunohistopathologic demonstration of deleterious effects on growing rat testes of radiofrequency waves emitted from conventional Wi-Fi devices, J Pediatr Urol. 2012 Mar 30. [Epub ahead of print] [View Author's abstract conclusions] [View on Pubmed]
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P Avendano C et al, (January 2012) Use of laptop computers connected to internet through Wi-Fi decreases human sperm motility and increases sperm DNA fragmentation, Fertil Steril. 2012 Jan;97(1):39-45.e2. Epub 2011 Nov 23 [View Author's abstract conclusions] [View on Pubmed]
N Sambucci M et al, (December 2011) Early life exposure to 2.45GHz WiFi-like signals: Effects on development and maturation of the immune system, Prog Biophys Mol Biol. 2011 Dec;107(3):393-8. Epub 2011 Sep 9 [View Author's abstract conclusions] [View on Pubmed]
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P Kumar S et al, (2011) The therapeutic effect of a pulsed electromagnetic field on the reproductive patterns of male Wistar rats exposed to a 2.45-GHz microwave field, Clinics (Sao Paulo). 2011;66(7):1237-45 [View Author's abstract conclusions] [View on Pubmed]
P Papageorgiou CC et al, (June 2011) Effects of wi-fi signals on the p300 component of event-related potentials during an auditory hayling task, J Integr Neurosci. 2011 Jun;10(2):189-202. doi: 10.1142/S0219635211002695 [View Author's abstract conclusions] [View on Pubmed]
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- Blank M, Goodman R, (April 2011) DNA is a fractal antenna in electromagnetic fields, Int J Radiat Biol. 2011 Apr;87(4):409-15. Epub 2011 Feb 28 [View Author's abstract conclusions] [View on Pubmed]
- McIntosh RL, Anderson V, (September 2010) SAR versus S(inc): What is the appropriate RF exposure metric in the range 1-10 GHz? Part II: Using complex human body models, Bioelectromagnetics. 2010 Sep;31(6):467-78 [View Author's abstract conclusions] [View on Pubmed]
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P Carpenter DO et al, (January 2010) Electromagnetic fields and cancer: the cost of doing nothing, Rev Environ Health. 2010 Jan-Mar;25(1):75-80 [View Author's abstract conclusions] [View on Pubmed]
P Viel JF et al, (August 2009) Radiofrequency exposure in the French general population: band, time, location and activity variability, Environ Int. 2009 Nov;35(8):1150-4. Epub 2009 Aug 4 [View Author's abstract conclusions] [View on Pubmed]
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- Peyman A et al, (June 2009) Evaluation Of Exposure Of School Children To Electromagnetic Fields From Wireless Computer Networks (Wi-Fi): Phase 1 Laboratory Measurements, [View Author's abstract conclusions]
- Kuhn S et al, (August 2007) Assessment Methods for Demonstrating Compliance With Safety Limits of Wireless Devices Used in Home and Office Environments, Electromagnetic Compatibility, 2007 August;49(3):519-525 [View Author's abstract conclusions]
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P Kuhn S, Kuster N, (July 2006) Development of Procedures for the EMF Exposure Evaluation of Wireless Devices in Home and Office Environments Supplement 1: Close-to-Body and Base Station Wireless Data Communication Devices, Foundation for Research on Information Technologies in Society, ETH Zurich, Switzerland [View Author's abstract conclusions]
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Sunday, 16 January 2022
A
Ally3:40 PM
Terrible reception, constant pixelation on all channels since 2 weeks before Christmas. Have re turned several times no luck. Others closeby have same issue. RH4.
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