Subliminal Recording System 8.0
CLICK HERE ---> https://urlca.com/2tqPF3
This easy to use subliminal recording system gives you complete and total control of what you want in your subliminal recordings. Subliminal Recorder exclusive software has everything you need to start making your own Subliminal Message recordings right away.
- New automated voice channel level mixer. This automatically mixes the subliminal voice track at a subliminal level even if the background level is changing.- Use any .wav or .mp3 file or files as backgrounds.- Built in recording mixer for easy access to recording inputs.- Mix many background sounds together such as soft music and waterfalls.- Make subliminal or self hypnosis CD's- Built in Binaural Beat generator for matching brain wave patterns for maximum subconscious penetration.- Recording section allows you to record stereo or mono with selectable bit rate and sample rate for CD quality recordings.- MP3 playlist channel for loading many wav or mp3 files for use as backgrounds.- Record any length file.- Freq shifter to move audio files to any freq you wish.- Integrated Wav to MP3 Encoder for making Subliminal MP3's to play on your computer, MP3 player or IPod- Integrated MP3 to Wav Decoder to convert MP3 files back to their high quality wav files.- Integrated SAPI 5 Text to Speech Recorder. Just type in the text messages and record your computer speaking them. Great if you do not have a microphone.- Integrated Digital CD to Wav Extractor for saving songs from CD's to use in your recordings.- Integrated Wav Editor with 14 effects including Reverse, Echo, Band Pass and many more. Great for making messages play in reverse like the famous Stairway to Heaven recording.- Integrated Screen Strobe Light. Makes your computer screen flash like a strobe light. Great for self hypnosis sessions.
An illustration of supraliminal vs. subliminal priming. In subliminal priming, subjects are not aware of the stimuli as it occurs quickly (approximately less than 500 ms), yet it still influences them.
In the clinical and research contexts, subliminal priming depends on the specific indicators sampled and the time-frames over which they are measured . Subliminality may vary over time as a function of dispositional factors and environmental variables. As a result, a strong conceptual and measurement model is needed to understand, study, and apply this concept.
An example of a typical subliminal priming trial. The arrow depicts the flow of time. The priming process shows how exposure to one stimulus (e.g., audio, video, words, or images associated with a negative, neutral, or positive emotion) influences the response to the target, which is another stimulus. The symbols #### represent forward and backward masks. Masking is a widely used and powerful way of studying visual processes to reduce (or eliminate) any influence from previous or upcoming primes.
One study  considered the effects of subliminal emotion words on the preferences and judgments towards subsequent visual target stimuli (i.e., paintings and portraits) . The stimuli were distinguished via the following criteria:
The subliminal responses to those words were measured using ERPs. The ERPs were then used to investigate the timing and effects of priming on subjects. In multiple studies [79,80,81], ERPs were also used to evaluate the effects of positive and negative subliminal primes on perceptual vigilance and defense responses. Table 2 summarizes the ERP studies based on components, stimuli, and locations.
Other ERP studies [82,83,84] have examined affective processing using emotionally arousing pictures. Based on these studies, an index of around 300 ms following exposure to a stimulus was suggested, which is believed to facilitate the processing of emotional stimuli in the visual cortex. Another study  reported a late-range ERP correlate of emotional processing, which has been termed the late positive complex (LPC). The LPC effect arising from emotion starts at around 400 ms after the stimulus onset, and the effect has been held responsible for activating motivational systems in the brain via emotional stimuli . The lateralized readiness potential (LRP)  monitors the development of hand-specific motor activation. LRPs have been used  to demonstrate that subliminal priming can successfully activate a partial response in a number-assignment test.
In summary, varying methodologies (i.e., modality and valence of stimuli, experimental design, number and location of recording electrodes, and ERP components evaluated) have been used. However, the most consistent finding among the above-cited studies is that emotional stimuli can elicit the ERP component P3 . Other studies [55,94,95] reported that the N1 and P2 components can be differentiated according to pleasant and unpleasant word categories, measured at electrode P3 in the EEG measurement system. These results can be used to detect whether the priming type is positive or negative.
Based on these studies, it can be concluded that sentence and motor information are integrated bidirectionally. ERPs offer a precise tool for measuring time (i.e., in milliseconds) and they include recordings of ongoing electrophysiological activity using electroencephalography (EEG). It is important to note that ERPs occur when various neural activities are activated in response to cognitive, sensory, and motor inputs . The N4 component tracks semantic processing, and it has been found that at approximately 400 ms after the presentation of a word (stimulus), a large, negative deflection occurs in the ERP . When integration of a stimulus into a previous semantic context is difficult, the N4 is typically larger . The N4 priming effect has been reported with semantic violations in language and processing of other meaningful stimuli [108,114,115].
In 1967, Yarbus  found that tasks given to participants influence their eye movements, while recent research has proposed that conscious processing of stimuli does not influence initial eye movements [130,131,132]. There have been several studies on eye tracking and subliminal priming; for example, Balcetis and Dunning  confirmed that the rapid eye movements after exposure to visual stimuli can be used as an indicator for how a participant has interpreted a given stimulus.
The findings  included the following: (a) priming consumers with the name of a thirst-quenching beverage makes it more likely that they will choose that beverage; and (b) priming also increases their intention to choose the brand, but only for individuals who are thirsty. These studies [151,155,156,157] also cited comparable results from popular examples of priming in media. For example, one study  investigated the presence of hidden, Satanic messages in rock music. The study answered two questions: (a) whether these messages could be attributed to active construction on the part of the listener and (b) whether the content was present in the recordings. The results revealed that 75% of participants reported having heard the controversial messages, and 44% believed that record companies and recording groups hid these messages in recordings.
In studies conducted on subliminal SHAs, tapes for improving memory and self-esteem were selected. There were two reasons for this choice: (1) participants were easily available for these experiments and (2) several well-established measures were available for the pre-test and post-test designs. The predicted results were higher post-test scores for memory and self-esteem; however, the actual results were the exact opposite for both categories. Other studies [167,168,169,170] found no actual change to perceived effects on self-esteem and memory, yet many participants who volunteered with the hope of improving these abilities ended up believing that the tapes had been effective. The impact of SHAs on perceived improvement was determined to be an illusory placebo effect [168,170].
There are many other examples of subliminal priming using the senses, including the use of odors for marketing and commercial purposes. The scent component is obviously important for hygiene, beauty and food products, but it can also affect other varied products. At the point of purchase, scent diffusers are commonly used to favor the quality of the customer experience, to reinforce the image of a brand by the diffusion of an odor related to its universe or to a particular product . The application for olfactory priming in the fields of advertisement and marketing is promising and increasingly common. However, the evidence base for olfactory priming is limited. Future research is needed to understand the associated psychological and physiological processes responsible for the potential effects.
Subliminal stimuli (/sʌbˈlɪmɪnəl/; the prefix sub- literally means \"below\" or \"less than\") are any sensory stimuli below an individual's threshold for conscious perception, in contrast to supraliminal stimuli (above threshold). A 2012 review of functional magnetic resonance imaging (fMRI) studies showed that subliminal stimuli activate specific regions of the brain despite participants' unawareness. Visual stimuli may be quickly flashed before an individual can process them, or flashed and then masked to interrupt processing. Audio stimuli may be played below audible volumes or masked by other stimuli.
Applications of subliminal stimuli are often based on the persuasiveness of a message. Research on action priming has shown that subliminal stimuli can only trigger actions a receiver of the message plans to perform anyway. However, consensus of subliminal messaging remains unsubstantiated by other research. Most actions can be triggered subliminally only if the person is already prepared to perform a specific action.
The context that the stimulus is presented in affects their effectiveness. For example, if the target is thirsty then a subliminal stimulus for a drink is likely to influence