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Radio Propagation : Space Weather : Sunspot Cycle Information

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NW7US Space Weather / Radio Proapgation Podcast; E4 - Subject: No more sunspots by 2015!? It is possible, if the trend revealed in current sunspot research at Kitt Peak, AZ, continues. Listen now!

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X-ray Conditions (Flares) 5-min.

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Check out the ACE-HF propagation software - the latest is version 2.05. ACE-HF is propagation forecasting and modeling for Amateur Radio as well as for Shortwave radio Listening and general HF operation. This software is even used by the military and other clients around the world. This software is developed and maintained by the same engineers that keep VOACAP up-to-date. As a result, this software is the most accurate user interface integrated with VOACAP. CHECK IT OUT, TODAY. This software is the most accurate modeling software available, and is endorsed by NW7US. Read the details to find out why.

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NW7US Update to CQ Magazine Last Minute Forecast
Updated: 27-Jan-2015 UTC

Day-to-Day Conditions Expected for January 2015

Propagation Index Days	(4)	(3)	(2)	(1)
Above Normal: 1,9-20,23-25,28	A	A	B	C
High Normal: 2-3,5-6,8,21-22,26-27,29-30	A	B	C	C-D
Low Normal: 4,31	B	C-B	C-D	D-E
Below Normal: 7	C	C-D	D-E	E
Disturbed: No days	C-D	D	E	E

Warnings/Alerts issued
in the last 24 hours, if any:
(Key: NOAA Scales)

[ live aurora display ]
[ auroral power maps ]

[ d-layer conditions ]

[ latest solar images 1 ]
[ latest solar images 2 ]
[ latest solar images 3 ]

[ active solar regions ]
[ current solar region image ]

[ What is a flare and its class? ]

Recent Space Environment Reports:

+ Reports of Solar & Geophysical Activity
+ Solar & Geophysical Activity Summaries

From the Space Environment Center:

Solar X-ray Flux

+ A 3 day plot of 5-minute solar X-ray flux values measured on the GOES 8 and 10 satellites.
+ A 6-hour 1-min Solar X-ray Flux plot

Satellite Environment Plot

[ Proton Flux ] [Electron Flux ]
[ GEOS Hp ] [ Estimated Kp ]

Additional Resources

+ SpaceW.com Aurora Network
+ D-Layer Absorption Conditions/Predictions
+ 160 Meter Propagation Forecast
+ Solar Physics Department of the Royal Observatory of Belgium, the official keepers of sunspot data.

Solar Activity Forecast
The Forecast of Solar Activity as well as Geomagnetic Activity

Probability of Flares and Proton Events
EVENT (Flare/Proton)	0-24 hrs	24-48 hrs
M-class	30%	30%
X-class	05%	05%
Proton	01%	01%

Geomagnetic Activity Probabilities
	Middle latitudes		High latitudes
	0-24 hrs	24-48 hrs	0-24 hrs	24-48 hrs
Active	01%	01%	01%	01%
Minor Storm	01%	01%	01%	01%
Major-severe Storm	01%	01%	01%	01%

Solar Sunspot Cycle 24 Progress

Solar Cycle 24 Smoothed Sunspot Progress

[ Solar Cycle Details ]

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This page was rendered on 27-Jan-15 1418 UTC.
This page was first created in 1998, by Tomas David Hood (NW7US)

Current Sunspot Cycle 24 Activity and Space Weather

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Sun Spots: 110 as of 01/26/2015 :: 10.7-cm Flux: 147 SFU
(SFU=Solar Flux Units)

Space Weather Overview Graphic from SWPC

The Solar Dynamics Observatory (SDO) Latest Solar Images
Click on an image for full-sized view

D Region Absorption Predictions (D-RAP) Global Map

Map, Above: Conditions in the D region of the ionosphere have a dramatic effect on high frequency (HF) communications and low frequency (LF) navigation systems. The global D Region Absorption Predictions (D-RAP) depicts the D region at high latitudes where it is driven by particles as well as low latitudes, where photons cause the prompt changes.

Note: At times, images may appear broken or missing, when SDO is working on the AIA/HMI instruments.

Planetary A-index (Ap): 16 | Planetary K-index (Kp): 2
Solar Wind: 479 km/s at 3.0 protons/cm3, Bz is -1.0 nT
(Jan 27, 2015 at 1404 UT)

X-ray Solar Flares:
6h hi [M1.1][1646Z 01/26] 24h hi [M1.1][1646Z 01/26]

Background X-ray Level, Last Six Days

Jan 26 2015 :: B7.0
Jan 25 2015 :: B4.3
Jan 24 2015 :: B3.6
Jan 23 2015 :: B4.1
Jan 22 2015 :: B4.5
Jan 21 2015 :: B6.0

Check out the current Aurora Oval and activity.

Post by Space Weather and Radio Resources at HFRadio.org.

If you are using software utilities such as Ace-HF, that require a "smoothed" sunspot number
(Referred to as the SSN), or the smoothed 10.7-cm flux index,
use the following predicted values in this table:

Predicted SMOOTHED Sunspot Number And Radio Flux Values With Expected Ranges
YR/MO	Smoothed Sunspot Number Predicted/High/Low			Smoothed 10.7 cm Radio Flux Predicted/High/Low
2014 07	77.0	79.8	77.8	144.5	145.5	143.5
2014 08	75.3	79.0	75.0	141.1	142.1	140.1
2014 09	73.1	77.7	71.7	138.0	140.0	136.0
2014 10	71.1	78.0	68.0	135.8	138.8	132.8
2014 11	69.4	76.9	66.9	134.3	138.3	130.3
2014 12	67.7	77.1	65.1	133.7	137.7	129.7
2015 01	65.7	77.4	63.4	132.6	137.6	127.6
2015 02	63.8	76.4	62.4	131.2	137.2	125.2
2015 03	62.4	75.6	59.6	129.4	136.4	122.4
2015 04	61.4	75.2	57.2	126.2	134.2	118.2
2015 05	59.9	74.5	56.5	122.5	130.5	114.5
2015 06	57.6	73.9	53.9	118.5	127.5	109.5
2015 07	55.1	72.0	52.0	115.6	124.6	106.6
2015 08	53.1	70.4	50.4	114.1	123.1	105.1
2015 09	51.7	68.7	48.7	112.6	121.6	103.6
2015 10	50.5	67.0	47.0	111.0	120.0	102.0
2015 11	49.4	65.3	45.3	109.5	118.5	100.5
2015 12	48.1	63.6	43.6	107.9	116.9	98.9
2016 01	46.8	61.9	41.9	106.3	115.3	97.3
2016 02	45.5	60.2	40.2	104.8	113.8	95.8
2016 03	44.0	58.5	38.5	103.2	112.2	94.2
2016 04	42.1	56.9	36.9	101.7	110.7	92.7
2016 05	40.4	55.2	35.2	100.2	109.2	91.2
2016 06	39.5	53.6	33.6	98.7	107.7	89.7
2016 07	38.7	52.0	32.0	97.2	106.2	88.2
2016 08	38.0	50.4	30.4	95.8	104.8	86.8
2016 09	37.1	48.8	28.8	94.3	103.3	85.3
2016 10	35.7	47.3	27.3	92.9	101.9	83.9
2016 11	33.8	45.7	25.7	91.5	100.5	82.5
2016 12	32.2	44.3	24.3	90.2	99.2	81.2

To understand more about the Maximum Usable Frequencies, and related
science, please read the MUF Basics Page.

Global HF Propagation Conditions
Global HF Propagation Conditions for 1400Z on 27 Jan, 2015
High Latitude: Fair-Normal
Middle Latitude: Normal
Low Latitude: Normal

Geomagnetic Latitude Ranges:
High: 60-90 degrees
Middle: 20-60 degrees
Low: 0-20 degrees

Global Ionospheric Map - Critical Frequencies - foF2 (Created with PropLab PRO)

Critical foF2 map (2014 June 08 at 1000 UTC)

At 0805 UTC, on 9 August 2011, a strong magnitude X6.9 X-ray flare -- the strongest yet in this current solar cycle (Cycle 24) -- erupted on the northwestern solar limb. Here is a HD Movie of the event:

Videos of Interest - Space Weather, Solar Dynamics Observatory, STEREO, and more... from the NW7US YouTube Channel. (Click on the small image to launch the video...)

Video: Voyager Finds Magnetic Foam at Solar Systems Edge

Video: Zoom View of Prominence Eruption and X-Ray Flare - M2.5 Magnitude - June 7 2011

Video: X-Ray Flare, Coronal Mass Ejection, Proton Storm - M2.5 Magnitude - June 7 2011 (Close-up of the video, above)

Video: Stunning Close-up View of M3 X-Ray Flare 24 February 2011

Video: June 2011 20-meter (14-Mhz) JT65A Coverage Map of NW7US Radio Signal

The NW7US Current Sunspot and Geophysical Activity Report
The observations, prognastications, and comments by NW7US
NW7US is Tomas David Hood, Propagation and Space Weather Columnist
for CQ Communications

More about Background X-rays

The hard X-ray energy present from the wavelengths of 1 to 8 Angstroms provide the most effective ionizing energy throughout all of the ionospheric layers in our atmosphere. The GEOS satellites measure these wavelengths and the resulting measurements are reported as the "background X-ray level" throughout the day. A daily average is reported, as well.

Just like X-ray flares, the background hard X-ray level is measured in watts per square meter (W/m2), reported using the categories, A, B, C, M, and X. These letters are multipliers; each class has a peak flux ten times greater than the preceding one. Within a class there is a linear scale from 1 to 9.

If one records the daily background X-ray levels for the course of a sunspot cycle, one would discover that the background X-ray levels remained at the A class level during the sunspot cycle minumum. During the rise and fall of a solar cycle, the background X-ray energy levels remained mostly in the B range. During peak solar cycle periods, the background energy reached the C and sometimes even M levels.

Armed with this information, can we discover any clues as to the current status of Sunspot Cycle 24? Below is a graph plotting the background hard X-ray energy reported by the GEOS satellites since the end of Sunspot Cycle 22. Clearly, we see a noticeable rise in Cycle 24 activity. We're seeing the energy mostly in the B level more often, supporting the view that Cycle 24 is alive and moving along toward an eventual sunspot cycle peak in several years.

Overall, the monthly average background 'hard' X-ray level is rising (as seen by the following plot), showing a change from deep solar cycle minimum. We are certainly in the rising phase of Sunspot Cycle 24. While it has been a slow up-tick over the last eighteen months, I expect to see a more rapid rise during mid to late 2011.

Highlights of Solar and Geomagnetic Activity
Covering the period: 01 - 07 December 2014

Solar activity ranged from low to high levels with the majority of activity occurring from Region 2222 (S19, L=085, class/area Ekc/770 on 04 December). Region 2222 produced a total of 54 C-flares and 5 M-flares since it began its transit on the visible disk on 26 November. The largest flares of the period were an M1/1n at 01/0641 UTC, an M1/1n at 04/0810 UTC, a long duration M6 at 04/1825 UTC, an M1 at 04/1941 UTC, and another M1 at 05/1225 UTC. Region 2222 continued to be in a growth phase through 04 December, when it began to decay. By the end of the period, the region was a large Hkx/alpha group with approximately 640 millionths of area. No Earth-directed coronal mass ejections were observed.

No proton events were observed at geosynchronous orbit.

The greater than 2 MeV electron flux at geosynchronous orbit was normal levels on 02 December, moderate levels on 01 and 03-06 December, and reached high levels on 07 December. Maximum flux values of 2,030 pfu were observed at 07/1755 UTC.

Geomagnetic field activity ranged from quiet to minor storm levels. Solar wind parameters measured at the ACE satellite were indicative of two negative polarity coronal hole high speed streams (CH HSS). The first began just after midday on 01 December. Solar wind speeds gradually increased from approximately 430 km/s to near 630 km/s while total field reached a peak of around 14 nT. Solar wind speed declined by 03 December, but remained enhanced around 400 km/s to 550 km/s through the majority of the period. By early on 06 December, total field increased to a maximum of 25 nT along with an increase in density as a co-rotating interaction region (CIR) began to influence the geomagnetic field. Solar wind speed showed an increase late on 06 December and through 07 December to a maximum around 800 km/s as a southern polar coronal hole extension became geoeffective. The geomagnetic field responded with quiet to unsettled levels on 02-03 and 05 December, quiet to active levels on 01, 04, and 06 December, and unsettled to minor storm (G1-Minor) on 07 December.

Monthly and smoothed sunspot number - The monthly mean sunspot number (blue) and 13-month smoothed monthly sunspot number (red) for the last five cycles. You can see that this current cycle, Cycle 24, is a weak cycle, compared to the last few.

(Click to see actual size)

Monthly and smoothed sunspot number chart

Daily and monthly sunspot number (last 13 years)

Daily sunspot number (yellow), monthly mean sunspot number (blue), smoothed monthly sunspot number (red) for the last 13 years and 12-month ahead predictions of the monthly smoothed sunspot number:

SC (red dots) : prediction method based on an interpolation of Waldmeier's standard curves; It is only based on the sunspot number series.

CM (red dashes) : method (from K. Denkmayr and P. Cugnon) combining a regression technique applied to the sunspot number series with the aa geomagnetic index used as a precursor (improved predictions during the minimum phase between solar cycles).

(Click to see actual size)

What is 'Space Weather'? Click on these two information slides to view them in full size:

View of numbered sunspot regions and plages (if any)
Source: http://www.solarmonitor.org/.
(Click for large view)

Active sunspot regions, and plages, identified by SIDC

SIDC Solar Disc with active regions and plages

Latest GOES 15 Image of the Sun

Latest GOES-15 Image of the Sun

STEREO IMAGES

What is coming

Current View

What was...

Real Time Solor Wind and Aurora:

On 2014 Dec 09 1853Z: Bz: -3.9 nT
Bx: -3.7 nT | By: 0.4 nT | Total: 5.4 nT
Most recent satellite polar pass:
Centered on 12/09/2014 : 1725 UTC
Aurora Activity Level was 4 at 1725 UTC
visit noaa for latest.

Real-Time Solar Wind data dials:

Auroral Power Map:

[ See this current Aurora Oval Map ]

This is a video of the simulation from May 27-28, 2011, showing
the Geomagnetic disturbance caused by the solar wind

All NICT images are Copyright@NICT,
used by express, written permission from NICT

Outlook:
(valid from 1230UT, 26 Jan 2015 until 28 Jan 2015)

26 Jan 2015 10.7-cm Flux: 130 / Ap: 020
27 Jan 2015 10.7-cm Flux: 133 / Ap: 011
28 Jan 2015 10.7-cm Flux: 136 / Ap: 010

Forecast:

Solar Flares:
Eruptive (C-class flares expected, probability >=50%)
Geo-Disturbance:
Active conditions expected (A>=20 or K=4)
Solar Proton Event:
Quiet

Comment from the SIDC (RWC Belgium): Only 2 minor C-class flares were observed during the last 24 hours. The strongest was a C1.8 flare peaking at 06:27UT in steadily growing NOAA 2271. Some new flux emerged in the trailing portion of NOAA 2268. Both this region and NOAA 2271 have some mixed magnetic polarities. The other regions were quiet. No Earth-directed CMEs were observed. A 20 degree long filament near the solar equator is at W30 and thus in a geoeffective position in case of eruption. C-class flaring is expected, with a chance on an isolated M-class flare. A disturbance in the solar wind was recorded starting 25 January around 20:00UT. Bz fluctuated between +9 and -15 nT, wind speed increased slightly and varied between 350 and 400 km/s. Elevated particle densities (20-40 particles per cm3) were observed between 05:00UT and 10:00UT. This may herald the arrival of a CH HSS, but further data are required to confirm this. Both Kp as K Dourbes recorded active geomagnetic conditions. A small equatorial CH transited the CM on 25 January and may influence the geomagnetic field late on 28 January. The geomagnetic field is expected to be unsettled to active. TODAY'S ESTIMATED ISN : 076, BASED ON 06 STATIONS.

(Comments issued on 26 Jan 2015, 1201UT)

Space Weather and Propagation Forecast
Prepared by the US Dept. of Commerce, NOAA,
and the Space Weather Prediction Center

Three Day Forecast of Solar and Geomagnetic Activity
(as of 2200Z on 07 Dec 2014)

Solar Forecast:

Solar activity is expected to be low with a chance for M-class flares on days one, two, and three (08 Dec, 09 Dec, 10 Dec).

Geomagnetic Forecast:

The geomagnetic field is expected to be at quiet to minor storm levels on day one (08 Dec), quiet to active levels on day two (09 Dec) and quiet levels on day three (10 Dec).

Forecast of Solar and Geomagnetic Activity
08 December - 03 January 2015

Solar activity is expected to be at low levels with a chance for M-class flaring (R1-R2, Minor to Moderate) for the forecast period as region 2222 continues to rotate off the visible disk as well as the return of old Region 2209 (S13, L=251) on 08 December.

No proton events are expected at geosynchronous orbit.

The greater than 2 MeV electron flux at geosynchronous orbit is expected to reach high levels from 08-22 and again on 03 January due to CH HSS influence.

Geomagnetic field activity is expected to be at unsettled to minor storm (G1-Minor) on 08 December and 03 January due to CIR/CH HSS activity. Unsettled, with possible active, levels are expected on 09, 12-15, 17-20, 28-29 December due to recurrent CH HSS effects. Quiet to unsettled with possible isolated active periods are expected from 31 December through 02 January due to possible recurrent extended periods of negative Bz as part of a variable current sheet.

Real-time foF2 map from IPS (Ionospheric Prediction Service), Australian Space Weather Agency

Space Weather Page

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view larger versions

The following images
are from SOHO

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Check out this amazing NASA SDO (Solar Dynamics Observatory) video
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Additional Views of the Sun

Be sure to check the Date shown in each photo - is it today's date?
(click to enlarge)

Current Numbered Sunspots / MDI Magnetogram

Purchase the STD Internet Space Weather & Radio Propagation Forecasting Course

Solar Terrestrial Dispatch (STD) is a world-leader in space weather forecasting services, as was demonstrated in late October and early November 2003 (Oler, C., "Prediction Performance of Space Weather Forecast Centers during the Extreme Space Weather Events of October and November 2003," published in the peer-reviewed scientific journal "Space Weather" by the American Geophysical Union in 2004). A copy of this paper is available here.

STD expertise is used to provide high-quality space weather forecast services to many electrical power companies across North America, guidance to spacecraft operators and consultation to many others.

STD has developed a special space weather course designed to teach individuals without any background how to predict space weather (see below). The STD Space Weather Course was the recipient of the Study-Web Academic Excellence award.

The course is available on-line as a small group of downloadable Adobe Acrobat Reader documents comprising over 630 pages of printed material (for sample pages, click here). You can therefore choose to study the material on your computer or print it out for study.

The course, if you choose the option, also includes the STD's powerful and popular Proplab-Pro HF Radio Propagation Laboratory software! All software products are optional elaborate tools that will contribute to your application of the knowledge obtained through this course.

NOTE: The certificate is no longer being offered. The course, never-the-less, still provides you with a very well-rounded knowledge base with which you can understand and work with space weather and radio propagation data.

Purchasing the Course

Please choose one of the following course packages.

Purchase: The course alone (no software), delivered over the Internet.
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Purchase: The course with all software, delivered over the Internet.
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NOTE: After you finish ordering, through PayPal, please allow me time to process your order. I am not always in front of my computer, so it may take a while for me to finish the processing of your order. I shall e-mail you the moment I have processed the order, and will give you specific directions on how to download the Course file(s). PLEASE BE PATIENT WITH ME!

A list of the topics covered in this home-study course include:

The Sun

Basics of the Sun
Sunspots

Types of Sunspots
Sunspot Magnetic Fields

Solar Radiation and Radio Emissions
Solar Cycles
Techniques for Modelling Solar Cycles
Sources of Information and Imagery

Interplanetary Space

The Solar Wind
Magnetic Fields
Heliospheric Current Sheet
Solar Sector Structures

The Earth

Magnetosphere

The quiet magnetosphere
The disturbed magnetosphere
Understanding Magnetic Indices
Magnetic Storms

Sudden Storm Commencements (SSCs)
Gradual Storm Commencements

Geomagnetically Induced Currents (GICs)

Effects on Electrical Hydro Systems
Effects on Other Long Conductors

Ionosphere

Formation of Ionospheric Layers
Factors Affecting Ionospheric Layers

Solar Disturbances

Transient Solar Coronal Mass Ejections (CMEs)

Types and Structures of Coronal Mass Ejections
Understanding the Importance of CME Structures
Inferring CME Structures from Available Solar Data
Coronal Mass Ejection Detection Methods
Using IMPACT (software) to Aid in CME Disturbance Predictions
Solar Cycle Dependencies

Solar Flares

Basic Nature of Flares
Types of Flares
Flare Rating Systems
Significance of Proton Flares
Ground Level Events (GLEs)
Fast Transit Events
Interpreting Magnetograms
Determining Magnetic Shear and Flare Susceptability
Solar Flare (and Proton Flare) Prediction Techniques
Solar Flare Related Coronal Mass Ejection Prediction Techniques
Sources of Solar Flare Information

Solar Coronal Holes

Coronal Hole Basics
Recurrence
Solar Cycle Correlations
Associations with Near-Relativistic Electrons
Coronal Hole Related Disturbance Prediction Techniques

Filament Eruptions

Filaments and Prominences
Eruptive and Non-Eruptive Activity
Filament-Associated Coronal Mass Ejections
Filament-Related Disturbance Prediction Techniques

Auroral Activity

Basic Theory of the Northern/Southern Lights
Behavioral Characteristics of the Auroral Ovals
Sensitivity to Solar Disturbances
Affects on Satellite Health and Radio Communications
Mathematical Models of the Auroral Zones
Auroral Activity Prediction Techniques
Information Sources

Conditions Affecting Satellite Health

Atmospheric Drag
Surface Charging Anomalies
Deep Dialectric Charging Anomalies
Interplanetary Shocks
Magnetopause Crossings

Postulated Sun/Earth Climate Connections

Possible Long-Term Climatic Trends

Rainfall
Temperatures
Atmospheric Pressure
Storm Tracks
Ozone Correlations

Possible Short-Term Meteorological Trends

Pressure and Winds
Lightning
Storm Systems
Ozone Responses

Radio Propagation

Basic Theory (Non-Technical)

Characteristics and Components of Radio Signals
Understanding Plasmas
Importance of Electron Collisions
Appleton/Hartree Contributions
Signal Polarization and Coupling
Ionospheric Absorption

Deviative Absorption
Non-Deviative Absorption

Fading
Multipathing
Travelling Ionospheric Disturbances
Solar Related Disturbances
Structure of the Ionosphere

Ionospheric Layers
Importance of Sporadic-E
Effects of Spread-F
Solar-Cycle Dependencies
Models of the Ionosphere

Simple Mathematical Models
Numerical Maps
CCIR
URSI
The International Reference Ionosphere (IRI)
Others

Probing the Ionosphere
Probing Techniques
Probing Instruments
Sources of Ionosonde Information

Basic Ray-Tracing Concepts

Ordinary vs Extraordinary Signals
Becoming Familiar with Ray-Tracing Software

Ray-Tracing in Three-Dimensions

Ray-Tracing Software Considerations
Preparing for 3D Ray-Tracings
Performing 3D Ray-Tracings
Studying 3D Ray-Tracing Results

Vertical Radio Signal Propagation

Signal Reflection Behavior
Critical Frequencies
Ray-Tracing Vertically-Incident Signals

Oblique Radio Signal Propagation

Signal Refraction/Reflection Characteristics
Effects of Geomagnetic Activity
Effects of Solar Activity
Ray-Tracing Obliquely Incident Radio Signals
Determination of Maximum Usable Frequencies

Simple Empirical Methods
Ray-Tracing Techniques

Effects of Sporadic-E
Non-Great-Circle (NGC) Propagation

Responsible Conditions
Compensation Methods
Ray-Tracing Techniques to Analyze NGC Propagation

Chordal-Hop and Inter-Layer Ducting Propagation

Advantages and Disadvantages
Analysis using Ray-Tracing Techniques

Searching for and Exploiting Exotic Propagation Paths

Properties of Exotic Paths
Searching for Exotic Paths using 3D Ray-Tracing Techniques
Determining the Most Reliable Exotic Radio Paths

Ionospheric Disturbances

Solar Related Disturbances

Solar Flares and Related Coronal Mass Ejections
Coronal Holes and High Speed Solar Wind Streams
Filament Related Coronal Mass Ejections
Impact of Flare Related Radio Noise Bursts

Short Wave Fadeouts
Sudden Phase Anomalies
Sudden Frequency Deviations
Devastating Effects of Polar Cap Absorption
Disturbances and their Effects on Satellite Communications

Radio Propagation Prediction Methods

Short-Term Forecasting Techniques
Medium-Term Forecasting Techniques
Long-Term Forecasting Techniques
Sources of Forecasting Information

Applied Forecasting Techniques

Climatology
Pattern Recognition
Compiling Necessary Information
Exploiting Databases
Computer Related Aids
Studying Real-Life Examples
Developing Experience and "Intuition"

Field Experience

The STD SW Course presents you with some specific historic real-life scenarios. Using the information and techniques studied in this course, you are asked to develop your own space-weather and radio-propagation predictions. The actual real-life impacts are then studied and compared with your forecasts.
The Course presents you with several hypothetical (possible future) examples and ask you to develop your own forecasts.

Course Completed

NOTE: THE CERTIFICATE IS NO LONGER AVAILABLE...

Check out these books on Radio Propagation:

+ The New Shortwave Propagation Handbook (Paperback) - by George Jacobs, Theodore J. Cohen, R. B. Rose. The NEW Shortwave Progagation Handbook may well be the only book you'll need on the subject of ionospheric propagation! It is a "must read" for Radio Amateurs, Shortwave Listeners, and radio communicators of any type who need to make the most productive use of the radio spectrum, regardless of the time of day, the season of the year, or the state of the sunspot cycle. It will become your ever-present companion a the operating table as you master the art of shortwave radio progagation.

+ How Radio Signals Work (Paperback) - by Jim Sinclair. This book provides a basic understanding of the way radio signals work-without becoming bogged down with the technicalities. It covers all kinds of radio signal types--including mobile communications, short-wave, satellite, and microwave. No detailed knowledge of electronics or mathematics is required. A-Z coverage of radio signals including satellites, mobile communications, and short-wave radio. No math or electronics background necessary.

+ Introduction to RF Propagation (Hardcover) - by John S. Seybold. This book provides readers with a solid understanding of the concepts involved in the propagation of electromagnetic waves and of the commonly used modeling techniques. While many books cover RF propagation, most are geared to cellular telephone systems and, therefore, are limited in scope. This title is comprehensive-it treats the growing number of wireless applications that range well beyond the mobile telecommunications industry, including radar and satellite communications.

Check out these articles:

HOW-TO: How do you make your HF ham station work more efficiently? The ANTENNA is the key! - introduction to Antenna Modeling
HOW-TO: Is HF Propagation Reciprocal?
HOW-TO: De-mystifying HF Radio Propagation and Modeling
REVIEW: An Amateur Radio Operator's Review of ACE-HF PRO version 2.05
REVIEW: A Shortwave Listening (SWLing) Review of ACE-HF PRO version 2.05
HOW-TO: Noise and Radio Signal Effectiveness; Modeling in ACE-HF Pro version 2.05

Data and images courtesy of IPS Australia, NOAA, NASA, SWPC, SIDC

Layout, analysis, commentary, and certain forecasts and content is
Copyright, 2014, Tomas David Hood (NW7US), all rights reserved.
No part, except for the space weather 'banners', may be copied without express permission.

Last Update: December 22, 2014