WED 4 1 2026 11:59PM EDST USA UPDATE
SPY ETF
MEV EBP
CCEV AND AEV EBPs
PCEV EBP
Easily Calculate A Single Cycle Period Based EchoVector Pivot Point From The Information On Your Focus Security's Price Chart: LOOKING AT YOUR PRICE CHART
1. Determine/Find/Enter Your Security's Focus Interest Price, such as it's last 'time frame relative' Pivot Point Price, or Flex Point Price, or its Current Price. ___. This is called your SRP-TPP (StartingReferencePoint-TimeAndPricePoint Price).
2. Enter Your Security's Coordinate EchoBackDate TimeAndPricePoint (EBD-TPP) Price* related to the SRP-TPP you have elected in 1. ___ The EBD-TPP Price occurs one X cycle length back in time from the SRP-TPP. *Some reader's have trouble identifying the EBD-TPP of a security's' selected SRP-TPP. Simply look back the length "X" of your chosen cycle period to find it. For example, the Quarterly EchoVector (QEV) EBD-TPP for today's Regular Market Hour's closing price at 4pm EDT USA would be the TPP on the same trading weekday and time one quarter of a year earlier, or 13 weeks ago. The Bi-Weekly EchoVector (WEV) EBD-TPP for today's SRP-TPP would be the TPP on the same trading weekday and time 2 weeks earlier. The Annual EchoVector (AEV) EBD-TPP for today's SRP-TPP would be the TPP on the same trading weekday and time 52 weeks earlier.
3. Enter The EchoVector Time Length X you have elected (in terms of Total Applicable Bars: ie., Weeks, Days, Hours, Minutes, Varied Time-Blocks, etc.). 4. The Generated EchoVector Slope Is Then: ___ (per applicable bar and per unit time-block). Active Equation: 1. minus 2. divided by 3. equals 4.
5. Enter the EchoBackDate's (EBD-TPP's) historical Forward Focus Pivot Point or Flex Point Price found (identified/elected) forward in time from the EBD-TPP, called the NPP-TPP Price, or NearbyPivotPoint TimeAndPricePoint Price. The EBD-TPP's NPP-TPP, identified on the chart, comprises the origin of the Coordinate Forecast EchoVector (CFEV), which will be parallel to the XEV of cycle length X chosen, and also of the same length X. This CFEV origin (identified pivot point or inflection point) is the NPP-TPP of a subsequent and "Supporting" TPP or a subsequent and Reversing TPP of interest that followed the EBD-TPP on the chart. ___
6. Enter The EBD-TPP's NPP-TPP's additional Forward Time Increments From the EBD-TPP's Time (in Applicable Bars: ie., Weeks, Days, Hours, Minutes, Varied Time-Blocks, etc.).
7. The EchoVector Pivot Point Price Projection (EVPPPP) Is: ___ . Active Equation: 1. plus (4. times 6.). Calculating and Constructing The Security's Corresponding Forecast EchoVector Support/Resistance Vector: The Coordinate Forecast EchoVector Support/Resistance Vector (CFEV-S/RV)
8. A CFEV-S/RV, a Security's Coordinate Forecast EchoVector Determined Price Support/Resistance Vector, runs from the Security's NPP-TPP Starting Price ___ in 5. above to the Coordinate Forecast EchoVector's EchoVector Pivot Point Price Projection ___ in 7. above, and runs forward ___ number of bars as entered in 6. above from the starting reference price point ___ entered in 1. above, and runs along at the slope (rate) generated in 4. above to the EchoVector Pivot Point Price Projection ___ calculated in 7. above. This CFEV Coordinate Forecast EchoVector S/RV can be readily projected (and drawn on chart). And, again, the EBD-TPP's NPP-TPP, identified on the chart, comprises the origin of the Coordinate Forecast EchoVector (CFEV), which will be parallel to the XEV of cycle length X, and also the same length of X and XEV.
9. Perform Calculation 5. through 8. for Each Sub-sequential Price Supporting Pivot Point Price and Sub-sequential Price Reversing Pivot Point Price of Interest from Your Security's EchoBackDate Price (Within A Relevant NPP Interest Range*) ___, (S1, S2, S3, and R1, R2, and R3).
The NPP Interest Range, technically referred to as Range C within the MDPP Forecast Model, consists of a constellation of time-frame and scope-relative pivot points in the price track of your subject security that follow the echovectors echo- backdate-time-and-price-point, selected by specific Range C criteria.
See EchoVector Analysis and EchoVector Pivot Points for more information on Range C.
For your general echovector pivot point calculations, and for your different perspective constructions and for your graphical framing purposes, you use any of the pivot prices you see on your chart proximate to the echovector echo-back-date-time-and-price point to start that interests you, perhaps then picking 3 relative bottoms (ascending or descending or a combination) and 3 relative tops (ascending or descending or a combination) also, and remembering which were price supporting pivots and which were price resistance pivots.
This will enable you to calculate a set of S pivot points and R pivot points to your echovector starting reference price (your beginning point, which is also your selected echovector's endpoint), who's set of 'simple and rudimentary method generated' EchoVector Pivot Points you have now just calculated)
Twelve Significant EchoVector Calculations For Perspective And Calculating Their Respective EchoVector Pivot Points
1. Daily EchoVector (24HEV)
2. Weekly EchoVector (WEV)
3. Bi-Weekly EchoVector (2WEV)
4. Monthly EchoVector (MEV)
5. Bi-Monthly EchoVector (2MEV)
6. Quarterly EchoVector (QEV, 3MEV, 13WEV)
7. Bi-Quarterly EchoVector (2QEV, 6MEV, 26WEV)
8. Tri-Quarterly EchoVector (3QEV, 9MEV, 39WEV)
9. Annual EchoVector (AEV, 4QEV, 12MEV, 52WEV)
10. Congressional Cycle EchoVector, Bi-Annual EchoVector (CCEV, 2AEV, 8QEV)
11. Presidential Cycle EchoVector (PCEV, 2CCEV, AEV)
12. Regime Change Cycle EchoVector (RCCEV, 2PCEV, 2CCEV, 8AEV)
ECHOVECTOR TECHNICAL ANALYSIS ASSOCIATION - EVTAA.COM THE TIME CYCLE PRICE (SLOPE) MOMENTUM ECHOVECTOR AND ECHOVECTOR PIVOT POINT PRICE PROJECTION PARALLELOGRAM: POWERFUL TECHNICAL ANALYSIS FORECAST PROJECTION TOOLS: ECHOVECTOR XEV OF TIME CYCLE LENGTH X With SRP-TPP (LOCATED ON FAR RIGHT) And EBD-TPP (LOCATED ON FAR FAR LEFT). XEV - ECHOVECTOR OF TIME CYCLE LENGTH X SRP - STARTING REFERENCE POINT (IN CURRENT FOCUS DAY) TPP - TIMEANDPRICEPOINT (IN CURRENT FOCUS DAY & EBD) EBD - ECHOBACKDATE (SAME DAY OF WEEK, X TIME CYCLE LENGTH BACK)
EchoVector of cyclical time period length X, with starting timeandpricepoint SRP-TPP (to the far right) and echobackdate timeandpricepoint EBD-TPP (to the far left).
SRP-TPP is a forward reflection of EBD-TPP, only located one cyclical time period length 'X' forward (such as one Quarter forward in a Q-EV).
XEV's slope momentum (change, slopemo) in cyclical time period length X measures the price difference between EBD-TPP and SRP-TPP over that specific cyclical time length X period.
XEV is the hypotenuse of triangle time length X (horizontal) and price points P differential (vertical) where the price point differential is the price difference between the EBD-TPP and the SRP-TPP.
A CFEV (Coordinate Forecast EchoVector) generated from EchoVector XEV runs parallel to XEV and radiates from a scalar NPP (nearby pivot point, nearby inflection point) occurring forward from XEV's EBD-TPP located in the EBP (echobackperiod).
At the far right end of the CFEV is found the EVPPPP (EchoVector Pivot Point Price Projection (S1, S2, S3, S4, R1, R2, R3, R4, etc.) to XEV's SRP-TPP.
This full construction is called the 'Time Cycle Price (Slope) Momentum EchoVector Pivot Point Price Projection Parallelogram, containing XEV's SRP-TPP, Xev'S EBD-TPP, the NPP-TPP located forward from the EBD-TPP and serving as XEV's CFEV origin, and the EVPPPP-TPP found at the far right of the CFEV.
The CFEV is a powerfully indicative EVA Support/Resistance vector! The powerful TCPSMPPPPPgram, with its identified and defining XEV SRP-TPP, and its EBP (echobackperiod) identified and constructed CFEV, radiating from the NPP-TPPs to the EVPPPP-TPPs, (S1, S2, S3, S4, R1, R2, R3, R4, etc.), is thereby constructed. XEV SRP-TPP/EBD-TPP/NPP-TPP/EVPPPP-TPP (Sn Or Rn)
