top of page

Nahay Solutions Group

Public·6 members

Tiix Buy Signal PORTABLE



TRIX is a momentum oscillator that displays the percent rate of change of a triple exponentially smoothed moving average. It was developed in the early 1980's by Jack Hutson, an editor for Technical Analysis of Stocks and Commodities magazine. With its triple smoothing, TRIX is designed to filter out insignificant price movements. Chartists can use TRIX to generate signals similar to MACD. A signal line can be applied to look for signal line crossovers. A directional bias can be determined with the absolute level. Bullish and bearish divergences can be used to anticipate reversals.




tiix buy signal



TRIX (15,9) is quite similar to MACD (12,26,9). Both are momentum oscillators that fluctuate above and below the zero line. Both have signal lines based on a 9-day EMA. Most notably, both lines have similar shapes, signal line crossovers, and centerline crosses. The biggest difference between TRIX and MACD is that TRIX is the smoother of the two; TRIX lines are less jagged and tend to turn a bit later.


With the similarities outweighing the differences, signals applicable to MACD are also applicable to TRIX. There are three main signals to watch for. First, signal line crossovers are the most common signals. These indicate a change in direction for TRIX and price momentum. A cross above the signal line is the first bullish indication, while a cross below is the first negative implication. Second, centerline crossovers provide chartists with a general momentum bias. The triple-smoothed moving average is rising when TRIX is positive and falling when negative. Similarly, momentum favors the bulls when TRIX is positive and the bears when negative. Third, bullish and bearish divergences can alert chartists of a possible trend reversal.


Signal line crossovers are the most common TRIX signals. The signal line is a 9-day EMA of the TRIX. As a moving average of the indicator, it trails TRIX and makes it easier to spot turns. A bullish crossover occurs when TRIX turns up and crosses above the signal line. A bearish crossover occurs when TRIX turns down and crosses below the signal line. Crossovers can last a few days or a few weeks, depending on the strength of the move. Due diligence is required before relying on these frequent signals. Volatility in the underlying security can also increase the number of crossovers.


The chart above shows Intel (INTC) and TRIX with six signal line crosses in a seven-month period. That is almost one per month. There were three good signals and three bad signals resulting in whipsaws (yellow area). The bullish crossover in June occurred near the top, the bearish crossover in late June occurred near the low and the bullish crossover in July occurred near the top. In the absence of a strong move, the lag from the triple-smoothed EMA results in late signals that produce losses. The bearish signal line cross in August foreshadowed a sharp decline and the bullish signal line cross in mid-September foreshadowed a strong advance.


The centerline crossover indicates when the cup is half full (bullish) or half empty (bearish). Think of the centerline as the 50-yard line in a football game. The offense has the edge after crossing the 50 (midpoint), while the defense has the edge as long as the ball remains beyond the 50. As with signal line crossovers, these centerline crossovers produce both good signals and bad signals. The key, as always, is to minimize losses on the bad signals and maximize gains with the good signals.


The chart above shows Raytheon (RTN) with five signals over a 16 month period. The first three were bad because the stock changed direction soon after the signals. In other words, a trend failed to take hold. The fourth signal (November 2009) coincided with a resistance breakout and foreshadowed a 20% advance. Great signal! This is also a classic example of combining indicator signals with chart signals for reinforcement. The resistance breakout on the price chart and the centerline cross for the TRIX reinforced each other. TRIX produced a nice bearish signal in May 2010 as RTN subsequently declined around 20%.


When bullish and bearish divergences work, they really work. The trick is separating the bad signals from the good signals. The chart below shows eBay (EBAY) with a successful bullish divergence. The stock moved to a lower low in early July, but TRIX held well above its prior low and formed a bullish divergence. The first potential confirmation came when TRIX moved above its signal line. However, there were no confirmations on the chart at the time. These came a little later. The green arrows show EBAY breaking chart resistance with good volume and TRIX moving into positive territory. Even though confirmation occurred well off the low, there were enough signs of strength to validate the breakout.


TRIX is an indicator that combines trend with momentum. The triple smoothed moving average covers the trend, while the 1-period percentage change measures momentum. In this regard, TRIX is similar to MACD and PPO. The standard setting for TRIX is 15 for the triple smoothed EMA and 9 for the signal line. Chartists looking for more sensitivity should try a shorter timeframe (5 versus 15). This will make the indicator more volatile and better suited for centerline crossovers. Chartists looking for less sensitivity should try a longer timeframe (45 versus 15). This will smooth the indicator and make it better suited for signal line crossovers. As with all indicators, TRIX should be used in conjunction with other aspects of technical analysis, such as chart patterns.


TRIX can be set as an indicator above, below or behind a security's price plot. It is easy to compare indicator/price movements when the indicator is placed behind the price plot. Once the indicator is chosen from the dropdown list, the default parameter setting appears (15,9). These parameters can be adjusted to increase or decrease sensitivity. The signal line default is 9, which can also be adjusted. Click here for a live example of TRIX.


This scan reveals stocks that meet four criteria. First, they must be above their 200-day moving average to be in an overall uptrend. Second, the TRIX must be negative to signal a pullback. Third, the TRIX crossed its signal line and turned up. Fourth, volume moved above the 250-day average to show an increase in buying pressure.


This scan reveals stocks that meet four criteria. First, they must be below their 200-day moving average to be in an overall downtrend. Second, the TRIX must be positive to signal a bounce. Third, the TRIX crossed its signal line and turned down. Fourth, volume moved above the 250-day average to show an increase in selling pressure.


The Triple Exponential Average (TRIX) is an indicator used to identify divergences and overbought and oversold conditions, as well as give buy and sell signals. The TRIX is helpful because it tends to filter out short-term noise.


The buy and sell signals are for entries. Using the above buy and sell signals for exits could prove profitless. A trader could consider exiting a long entry when the TRIX enters the oversold area and begins to turn downwards toward the zero line. Likewise, a trader could exit a short when the TRIX enters the oversold area and begins to turn upward and move toward the zero line.


The Triple Exponential Average (TRIX) screens out short-term volatility and hence, is a valuable tool for medium and longer-term periods for uncovering divergences in price as well as giving easy to understand buy and sell signals.


The EPS matrix consists of exopolysaccharides, proteins and nucleic acids.[39][40][41] A large proportion of the EPS is more or less strongly hydrated, however, hydrophobic EPS also occur; one example is cellulose[42] which is produced by a range of microorganisms. This matrix encases the cells within it and facilitates communication among them through biochemical signals as well as gene exchange. The EPS matrix also traps extracellular enzymes and keeps them in close proximity to the cells. Thus, the matrix represents an external digestion system and allows for stable synergistic microconsortia of different species.[43] Some biofilms have been found to contain water channels that help distribute nutrients and signalling molecules.[44] This matrix is strong enough that under certain conditions, biofilms can become fossilized (stromatolites).


Plant-beneficial microbes can be categorized as plant growth-promoting rhizobacteria.[58] These plant growth-promoters colonize the roots of plants, and provide a wide range of beneficial functions for their host including nitrogen fixation, pathogen suppression, anti-fungal properties, and the breakdown of organic materials.[59] One of these functions is the defense against pathogenic, soil-borne bacteria and fungi by way of induced systemic resistance (ISR)[60] or induced systemic responses triggered by pathogenic microbes (pathogen-induced systemic acquired resistance).[61] Plant exudates act as chemical signals for host specific bacteria to colonize.[62] Rhizobacteria colonization steps include attractions, recognition, adherence, colonization, and growth.[59] Bacteria that have been shown to be beneficial and form biofilms include Bacillus, Pseudomonas, and Azospirillum.[63][64] Biofilms in the rhizosphere often result in pathogen or plant induced systemic resistances. Molecular properties on the surface of the bacterium cause an immune response in the plant host.[62] These microbe associated molecules interact with receptors on the surface of plant cells, and activate a biochemical response that is thought to include several different genes at a number of loci.[62] Several other signaling molecules have been linked to both induced systemic responses and pathogen-induced systemic responses, such as jasmonic acid and ethylene.[59] Cell envelope components such as bacterial flagella and lipopolysaccharides, which are recognized by plant cells as components of pathogens.[65] Certain iron metabolites produced by Pseudomonas have also been shown to create an induced systemic response.[62] This function of the biofilm helps plants build stronger resistance to pathogens. 041b061a72


bottom of page