Fact-checked by Grok 2 weeks ago

Picture superiority effect

The picture superiority effect (PSE) is a robust cognitive phenomenon in which individuals exhibit superior memory performance for visual images compared to equivalent verbal descriptions, observed across tasks including recognition, recall, and cued retrieval.^[1] This effect highlights the brain's preferential processing of pictorial information, leading to higher retention rates even after brief exposures or large stimulus sets.^[2] First systematically demonstrated in a landmark recognition memory experiment by Shepard (1967), participants viewed sequences of 600 common objects presented as pictures, words, or sentences, followed by a surprise recognition test; accuracy reached 98% for pictures versus 88% for words and sentences.^[1] Subsequent studies confirmed the PSE's persistence over time, with high accuracy maintained for thousands of pictures even after delays of days (Standing et al., 1973).^[3] The effect remains intact in older adults and certain clinical groups, such as those with Alzheimer's disease, underscoring its fundamental role in human memory.^[4] Several theoretical accounts explain the PSE, with Paivio's dual-coding theory proposing that pictures benefit from parallel encoding in both verbal (linguistic) and nonverbal (imagery) systems, creating redundant and interconnected memory traces not available for words alone.^[2] In contrast, the distinctiveness model attributes the advantage to pictures' unique perceptual features, which stand out more saliently in typically verbal memory contexts, enhancing discriminability during retrieval (Mintzer & Snodgrass, 1999). While the PSE generally holds, exceptions occur with abstract or unfamiliar images lacking clear verbal labels, or under rapid presentation rates exceeding perceptual processing limits.^[5]

Overview

Definition and Phenomenon

The picture superiority effect refers to the phenomenon in which pictures and images are more likely to be remembered than their verbal equivalents, such as words describing the same concepts. This effect highlights a fundamental asymmetry in human memory processing, where visual stimuli tend to produce stronger and more durable memory traces compared to linguistic representations. The advantage is observed across various memory tasks, demonstrating that the format of information presentation significantly influences retention and retrieval.^[6] In basic experimental paradigms investigating this effect, participants are typically shown a list of items—either words or corresponding pictures—during a study phase, followed by a recognition test where they identify previously viewed stimuli from a mix of old and new items. For instance, recognition accuracy for pictures often reaches 93-98%, while for words it is lower, around 76-90%, indicating a clear superiority for visual formats even after short study durations. These paradigms control for factors like item familiarity and exposure time to isolate the modality's impact on memory performance.^[6]^[5] The effect applies to both recognition memory and free recall, though it is most robust in recognition tasks where participants distinguish studied items from distractors. Common examples involve simple line drawings of concrete objects, such as a chair or apple, compared to their verbal labels like "chair" or "apple," where the pictorial versions yield higher correct identification rates. This initial scope focuses on common, nameable items to ensure equivalence between conditions, avoiding abstract or uncommon concepts that might confound results.^[6]^[5] The phenomenon was first systematically observed in Shepard's (1967) experiment, where participants viewed approximately 600 stimuli, including pictures, and exhibited markedly superior recognition memory for pictorial items relative to words following brief presentations. This study established the effect's reliability under controlled conditions, laying the groundwork for subsequent research.^[6]

Evolutionary and Biological Basis

The evolutionary rationale for the picture superiority effect lies in the primacy of visual processing in human ancestry, which developed to support survival-critical functions long before the emergence of verbal language. In contrast, written language arose only about 5,000 years ago, while spoken language evolved much earlier, making visual biases an innate legacy rather than a learned adaptation.^[7] Humans exhibit sensory dominance in vision, with the brain allocating a disproportionate share of resources to visual input compared to other modalities, reflecting its evolutionary prioritization for navigating complex environments. Approximately half of the human cerebral cortex is dedicated to visual processing, underscoring this bias and enabling pictures to engage direct perceptual pathways that bypass the abstract mediation required for verbal encoding.^[8] This dominance facilitates the formation of vivid, context-rich representations from visual stimuli, enhancing their retention over linguistic descriptions. At the biological level, pictures leverage specialized neural circuits for superior encoding and storage. Visual information is primarily processed in the occipital lobe's visual cortex, where it generates detailed sensory representations, before integrating with the hippocampus for long-term memory consolidation. The hippocampus plays a key role in binding multimodal traces, creating detailed memory representations that incorporate spatial, color, and form details. Cross-species parallels in nonhuman primates further suggest that the preference for visual memory has pre-linguistic origins. For instance, capuchin monkeys demonstrate strong recognition of conspecific faces in photographs, indicating an evolved capacity for pictorial memory that mirrors human visual advantages without reliance on language.^[9] Such abilities likely stem from shared ancestral adaptations for social and environmental vigilance, predating the divergence of human verbal cognition.

Historical Development

Early Discoveries

The picture superiority effect was first systematically demonstrated in recognition memory tasks during the late 1960s. In a seminal experiment, Roger Shepard presented participants with 612 color pictures of common objects, sentences, and words, followed by a two-alternative forced-choice recognition test. Participants achieved 98% accuracy for pictures, compared to 88% for sentences and 90% for words, highlighting the superior memorability of visual stimuli even after brief exposure.^[10] Building on this, Lionel Standing and colleagues extended the findings to larger sets and longer retention intervals in the early 1970s. In one study, participants viewed 2,560 photographs of diverse scenes in a single trial, with each image displayed for 5 or 10 seconds; after an average delay of 1.5 days, recognition accuracy reached approximately 90%, underscoring the capacity for near-perfect retention of thousands of pictures over short-term delays.^[11] This work emphasized the robustness of picture memory in iconic-like storage, distinct from verbal materials. Further investigations in the mid-1970s quantified picture superiority across massive lists and compared it directly to words. Standing's 1973 experiments involved single-trial exposure to up to 10,000 pictures, where participants retained about 73% of them in recognition tests with 32 alternatives, far exceeding performance for comparable word lists (e.g., 66.5 items retained out of 100 words).^[12] Picture superiority persisted across varying list lengths, from 20 to 10,000 items, without pronounced serial position effects diminishing the advantage. Concurrently, Allan Paivio's research linked the effect to mental imagery, showing in free recall tasks that concrete nouns presented as pictures yielded twice the recall rate of words, attributing this to enhanced imaginal encoding.^[2]

Evolution of Key Concepts

In the 1980s, the understanding of the picture superiority effect shifted toward frameworks emphasizing the role of perceptual discriminability in memory encoding. Douglas L. Nelson and Cathy L. McEvoy's work introduced a sensory-semantic model that highlighted how pictures generate richer sensory traces compared to words, enhancing discriminability during retrieval, particularly over varying retention intervals.^[13] This perspective built on earlier empirical observations by attributing the effect to the qualitative superiority of visual sensory codes, which provide more distinctive perceptual features than verbal labels.^[14] By the 1990s, integrations of transfer-appropriate processing (TAP) further refined these concepts, linking the effect to the match between encoding and retrieval contexts. Mary S. Weldon and Henry L. Roediger III demonstrated that the superiority of pictures could be reversed or eliminated by altering retrieval demands, suggesting that the benefit arises when test cues align with the perceptual richness of picture encoding rather than inherent dual representations.^[15] This approach emphasized environmental and task-specific factors, influencing how researchers interpreted the robustness of the effect across different memory paradigms. Milestone reviews in this period, such as Allan Paivio's 1991 consolidation of dual coding theory, synthesized accumulating evidence to underscore the interplay of verbal and nonverbal systems in producing the effect.^[16] Early conceptual distinctions emerged regarding recognition versus recall, with studies showing the effect more pronounced in recognition due to preserved sensory details, whereas recall often required deeper semantic integration where word advantages could occasionally surface.^[17]

Theoretical Frameworks

Dual Coding Theory

Dual coding theory, developed by Allan Paivio, posits that human cognition and memory operate through two distinct but interconnected subsystems: a verbal system specialized for processing linguistic and propositional information, and a non-verbal system dedicated to imaginal or depictive representations. These subsystems function independently yet referentially, allowing for the integration of verbal and visual information to enhance overall processing and storage.^[18] In the context of the picture superiority effect, this theory explains the mnemonic advantage of pictures by emphasizing their ability to activate both subsystems simultaneously, resulting in redundant encoding that strengthens memory traces.90032-7) Specifically, when individuals encounter a picture, it not only generates an imaginal code through direct perceptual representation but also elicits a verbal code via spontaneous labeling or description, creating interconnected traces across the two systems.90032-7) In contrast, words primarily engage the verbal subsystem, producing a single propositional trace unless additional imagery is evoked, which limits their encoding efficiency compared to pictures.90032-7) This dual-trace mechanism provides pictures with a robust encoding advantage, as the additive contributions from both codes facilitate better retrieval during recall or recognition tasks. Empirical evidence supporting this distinction shows that concrete words, which readily evoke imaginal codes due to their referential connections to objects or events, exhibit improved memory performance over abstract words but still fall short of the superiority demonstrated by pictures.90032-7) For instance, Paivio's experiments revealed that high-imagery concrete nouns benefit from partial dual coding, yet pictures yield even higher recall rates because they inherently maximize imaginal activation without relying on effortful imagery generation. Further support for the theory's additive effects emerges in studies of multimedia learning, where combining verbal and visual elements—such as text with diagrams—produces superior retention compared to single-modality presentations, mirroring the dual encoding observed with pictures alone. This redundancy is conceptualized mathematically as memory strength S = V + I, where V represents the strength of the verbal code and I the strength of the imaginal code; pictures optimize both components, thereby maximizing S.90032-7)

Sensory Semantic and Distinctiveness Theories

The sensory semantic theory, developed by Nelson in 1976, explains the picture superiority effect by emphasizing how pictures serve as direct sensory referents to concrete objects or events, thereby enhancing discriminability during encoding and retrieval compared to words, which often involve more abstract or indirect associations.^[19] According to this model, both pictures and words activate shared semantic codes, but pictures additionally encode rich, modality-specific sensory features—such as visual details, spatial arrangements, and contextual elements—that reduce interference from similar stimuli and facilitate unique memory traces.^[20] A core aspect of this framework is the role of distinctiveness enhancement, where the unique visual features of pictures minimize proactive and retroactive interference in memory, outperforming the more overlapping verbal representations of words. Empirical support for this comes from experiments showing that when visual similarity among pictures is high, the superiority effect diminishes or reverses, as the discriminability advantage is lost.^[21] Recent research reinforces distinctiveness as the primary driver, demonstrating that manipulating word distinctiveness—such as by presenting them in a unique font—eliminates the picture advantage, challenging alternative accounts like dual coding.^[22] Pictures also enable faster semantic activation than words, allowing quicker access to meaning representations that bolster memory encoding. For instance, in semantic categorization tasks, participants verify the category membership (e.g., living vs. nonliving) of pictures approximately 50-100 ms faster than equivalent words, reflecting more direct perceptual-semantic linkages.^[23] This rapid activation contributes to the overall superiority by embedding stimuli more deeply in associative networks during brief exposures.

Transfer-Appropriate Processing Theory

The transfer-appropriate processing (TAP) theory explains the picture superiority effect by emphasizing that memory performance improves when the cognitive operations performed during encoding align with those required at retrieval. According to this framework, stimuli are remembered better to the extent that the test recapitulates the processing engaged at study, such as perceptual or conceptual analysis.^[24] In applying TAP to pictures versus words, the theory posits that pictures elicit richer visual encoding, leading to superior retention on retrieval tasks that demand visual imagery or perceptual processing, thereby generating perceptual fluency that aids recognition. Conversely, words, which are typically encoded more verbally or semantically, exhibit a mismatch in visual retrieval contexts, reducing their effectiveness and contributing to the observed picture advantage.^[24] Key experimental support for TAP in this domain comes from studies manipulating retrieval demands, where pictures demonstrated superior performance on imagery-involving tests like free recall but showed a reversal on verbal tests such as word fragment completion. For example, in one experiment, free recall rates were 39% for pictures compared to 29% for words, while word fragment priming was only 11% for pictures versus 26% for words, illustrating how task congruence determines the direction of the effect.^[24] The picture superiority effect under TAP is not absolute and diminishes under certain boundary conditions, such as speeded responses that disrupt the development of perceptual fluency. Rapid presentation rates during encoding, for instance, have been found to eliminate the advantage entirely by limiting deep visual processing.^[25] This perspective complements sensory semantic and distinctiveness theories by prioritizing encoding-retrieval overlap over inherent stimulus properties.^[24]

Empirical Evidence

Behavioral Studies on Recognition and Recall

Behavioral studies have demonstrated robust picture superiority in recognition memory tasks, where items presented as pictures are recognized more accurately and with higher confidence than the same items presented as words. In a classic experiment by Shepard (1967), participants studied sequences of 600 common objects presented as pictures or words, followed by an immediate surprise recognition test; accuracy reached 98% for pictures versus 88% for words.^[1] This superiority is consistent across various paradigms, including serial position effects, where pictures maintain higher hit rates even at primacy and recency positions in the list, as shown in group recall tasks where picture-based information was recalled more frequently than word-based information regardless of position.^[26] Meta-analytic reviews of recognition studies confirm this pattern, with pictures showing an average advantage of approximately 20-30% in accuracy rates over words across dozens of experiments, corresponding to large effect sizes (Cohen's d ≈ 1.5-2.0). This variation underscores that the effect is modulated by the concreteness of the material, with pictures providing richer perceptual and conceptual encoding for tangible objects. In recall paradigms, the picture superiority effect is equally pronounced, with free recall performance approximately twice as high for pictures as for words. Paivio and Csapo's seminal work found that participants recalled about 2.4 times more items from picture lists than from word lists in free recall tasks, attributing this to dual coding processes that enhance retrieval.^[2] Associative recall in paired-associate tasks similarly benefits from pictures, where intact picture pairs yield higher hit rates than word pairs, extending the effect to relational memory without altering false alarm rates.^[27] These findings illustrate the effect's reliability in behavioral paradigms, consistent with broader empirical evidence from sensory and processing theories.

Associative and Semantic Memory Findings

Research on the picture superiority effect in associative memory has demonstrated that pictures facilitate stronger memory for linked items compared to words. In associative recognition tasks, intact picture pairs elicit significantly higher hit rates than word pairs, with the advantage persisting even when semantic relatedness between items is controlled. For instance, participants recognized picture associates with greater accuracy, reflecting enhanced binding of visual elements during encoding. This effect is attributed to the richer perceptual details in pictures that support relational processing.^[27] In semantic processing tasks, pictures accelerate priming effects, leading to faster activation of related meanings. For example, semantic priming with picture cues results in response times approximately 75 ms quicker than word cues in category verification paradigms, highlighting pictures' role in expediting access to conceptual networks.^[28] Recent work on social information encoding further supports this, showing that pictorial formats deepen retention of social cues compared to verbal descriptions in directed forgetting scenarios, particularly under conditions of social exclusion. This suggests pictures enhance meaningful integration of interpersonal details.^[29] Cross-modality transfer reinforces the effect's robustness, where pictures studied visually yield superior performance even when tested verbally. Items encoded as pictures show recognition advantages of around 25% over those encoded as words when retrieval involves word formats, underscoring modality-independent semantic benefits. A 2024 study examining variability in social contexts found that while the effect holds generally, its magnitude fluctuates with contextual emotional demands, such as in prospective memory for social intentions, where pictures outperform words but less consistently under high attentional load.^[30]^[31]

Neuroimaging and Electrophysiological Correlates

Electrophysiological studies using event-related potentials (ERPs) have elucidated the temporal dynamics of the picture superiority effect during encoding and recognition. Ally and Budson (2007) employed high-density ERP recordings in a recognition memory paradigm and observed an earlier posterior positivity for pictures relative to words in the 300-500 ms post-stimulus window, interpreted as evidence of deeper and more elaborate semantic processing for visual stimuli.^[32] This positivity reflects enhanced integration of perceptual and conceptual features unique to pictures, contributing to their memorial advantage. Furthermore, this ERP signature persists across the lifespan; Ally et al. (2008) replicated the posterior positivity in older adults using data from the same younger cohort, demonstrating that aging does not disrupt the neural correlates of picture superiority in recognition memory.^[33] Functional magnetic resonance imaging (fMRI) research complements these findings by highlighting region-specific activations supporting picture encoding. During semantic processing tasks, pictures elicit greater activation in the hippocampus and fusiform gyrus compared to words, facilitating richer relational binding and perceptual distinctiveness.^[34] For instance, Golby et al. (2001) reported lateralized responses where pictures robustly engaged right fusiform regions for visual form processing, while words activated left hippocampal areas for verbal associations, underscoring how modality-specific neural pathways underpin the superiority of pictures in memory formation. The distinctiveness of pictures appears tied to heightened visual cortex involvement, enhancing long-term retention through perceptual elaboration. Additional ERP evidence points to differences in semantic integration speed. Pictures exhibit a faster reduction in N400 amplitude during semantic categorization tasks, emerging approximately 200 ms earlier than for words, which indicates more rapid access to meaning and reduced processing demands for visual stimuli.^[35] West and Holcomb (2002) observed this attenuated and earlier N400 for pictures, linking it to their direct perceptual representation bypassing some verbal mediation steps. More recent ERP investigations have dissociated the roles of recollection and familiarity in the picture superiority effect. Doyle and Curran (2011) conducted experiments showing that studied pictures amplify the late parietal positivity (associated with recollection) while suppressing the mid-frontal FN400 (linked to familiarity), creating a double dissociation that explains pictures' overall recognition advantage over words. This pattern suggests pictures promote contextually rich episodic retrieval, aligning with behavioral parallels in associative memory tasks.

Critiques and Limitations

Boundary Conditions and Moderators

The picture superiority effect is influenced by the degree of visual similarity among stimuli. When pictures share high schematic overlap, the memory advantage for pictures over words is significantly reduced, with studies showing elimination of the effect in recognition tasks under conditions of slow presentation rates and even reversal under fast rates.^[21] This moderation aligns with distinctiveness theories, where reduced perceptual uniqueness diminishes the relative benefit of pictorial encoding. Task demands further bound the effect's reliability. Under conditions of divided attention or high cognitive load, such as concurrent secondary tasks during encoding, the picture superiority advantage diminishes as resources for perceptual processing are constrained. For instance, in prospective memory paradigms, divided attention reduces the relative performance gain for pictorial cues compared to verbal ones.^[31]

Instances of Reversed or Absent Effects

Under conditions of rapid processing demands, the picture superiority effect can reverse, with words outperforming pictures in recognition accuracy. A study employing a speed-accuracy tradeoff paradigm found that when participants were given short response deadlines of 500 ms or less, recognition memory for words exceeded that for pictures, as the perceptual fluency advantage of pictures was disrupted by the time constraint, while words relied more on faster conceptual processing.^[36] The effect also reverses for action concepts, particularly verbs, where words facilitate faster and more accurate semantic categorization than pictures. In an eyetracking investigation, participants exhibited quicker fixations and higher accuracy when categorizing action verbs (e.g., "run") presented as words compared to corresponding images, suggesting that dynamic actions are better captured by linguistic representations that evoke motor simulations rather than static visuals.^[37] For abstract or non-visualizable concepts, such as "justice" or "freedom," the picture superiority effect is typically absent, as these items lack strong perceptual or imaginal codes to confer an advantage. Research disentangling perceptual and conceptual contributions to memory has shown that the effect depends heavily on conceptual distinctiveness, which is minimal for abstract terms, resulting in equivalent or superior recall for their verbal forms when visual depictions are ambiguous or ineffective.^[38] Recent work highlights how pictures can induce overconfidence in truth judgments, leading to memory errors that undermine the superiority effect. A 2024 study on AI-edited images demonstrated that manipulated photos implant false memories more readily than textual descriptions, as participants over-relied on the perceived authenticity of visuals, resulting in higher error rates and reduced accuracy in distinguishing real from fabricated events.^[39] The picture superiority effect has also been observed in individuals with aphantasia, who lack the ability to form voluntary visual imagery, suggesting that the effect does not rely on imaginal elaboration and supporting perceptual distinctiveness accounts over dual-coding explanations emphasizing imagery.^[40]

Developmental and Lifespan Variations

Effects in Children and Development

The picture superiority effect (PSE) emerges early in childhood, with evidence indicating its presence in recognition tasks as young as age 4 to 5 years. In verbal discrimination learning studies, children aged 4 to 7 demonstrated superior recall for pictures compared to words, though the magnitude did not significantly increase within this range, suggesting an initial onset during the preschool period. This early manifestation aligns with children's developing visual processing abilities, where pictorial stimuli provide a more accessible memory cue than verbal ones at a time when linguistic skills are still maturing.^[41] As children progress through middle childhood, the PSE strengthens, particularly in associative memory tasks. A 2019 developmental study on children aged 11 to 13 and adults found a clear picture superiority in recalling pure picture pairs, with semantic relatedness enhancing accuracy similarly across ages, though overall memory performance improved with maturation. This maturation is linked to vocabulary growth, as meta-analyses show a moderate correlation (r ≈ .36) between visual memory for perceptual details and receptive vocabulary knowledge in children aged 2 to 12, where pictorial aids facilitate stronger word-picture associations and long-term retention. Additionally, the development of imagery ability contributes to dual-trace encoding (visual and verbal), enhancing the stability of pictorial memories as children shift from overt to more covert verbal strategies by ages 5 to 17.^[42]^[43] Influences such as increasing exposure to visual media in educational and cultural contexts further support the PSE's development, as frequent interaction with images builds familiarity and perceptual distinctiveness in memory traces. Key findings indicate a superior recognition advantage for pictures over words in children, comparable to adults but less consistent in younger groups due to reliance on familiarity processes rather than full recollection. For instance, in recognition tasks, 7-year-olds showed no significant PSE under time pressure, but the effect became robust by age 11, reflecting a transition to more integrated sensory-semantic processing.^[20]^[44]

Effects in Older Adults and Clinical Populations

The picture superiority effect persists into later adulthood and may even be more pronounced in older adults compared to younger ones. A seminal 2008 study using high-density event-related potentials demonstrated that older adults (aged 65-80) exhibited a stronger behavioral picture superiority effect during recognition memory tasks, with hit rates for pictures exceeding those for words by a larger margin than in young adults (aged 18-30), suggesting a compensatory reliance on visual processing to offset age-related declines in verbal memory.^[45] This preservation aligns with findings that nonverbal visual codes remain effective for long-term retention across the lifespan, including in the oldest-old (aged 90+), where pictorial stimuli supported free recall and cued recall comparably to younger groups.^[46] In clinical populations with Alzheimer's disease (AD), the picture superiority effect remains intact, particularly in mild stages, providing a substantial memory benefit. A 2009 recognition memory study involving patients with mild AD showed that they derived a similar relative advantage from pictures over words as healthy older controls, with corrected recognition scores (Pr = hits minus false alarms) significantly higher for pictures (p = 0.006), indicating preserved gist-based conceptual processing despite overall memory impairment.^[47] This effect is more pronounced in AD than in healthy aging, with pictures yielding much greater retention improvements, potentially aiding early interventions.^[48] The picture superiority effect is also preserved in amnestic populations, such as those with mild cognitive impairment (MCI), for recognition tasks relying on familiarity. A 2012 electrophysiological study confirmed robust picture advantages in amnestic MCI patients, with better performance for pictures than words across groups, attributed to intact memorial familiarity for visual stimuli.^[49] Conversely, in schizophrenia, the picture superiority effect is diminished, primarily due to underlying deficits in mental imagery and subjective memory qualities. A 2003 study found that schizophrenia patients displayed a reduced picture advantage specifically for "remember" responses (indicating episodic recollection), with overall memory performance lower than in controls, linking the attenuation to impaired vividness and contextual binding in visual encoding.^[50] Recent research continues to affirm the effect's robustness in aging.

Practical Applications

Education and Instructional Design

The picture superiority effect has been integrated into educational theories such as Richard Mayer's cognitive theory of multimedia learning, which posits that learners construct more robust mental representations when instructional materials combine verbal explanations with relevant visuals, leading to enhanced retention and comprehension compared to text alone.^[51] This multimedia principle leverages dual-channel processing—visual and auditory/verbal pathways—to reduce cognitive load and facilitate deeper encoding, with empirical studies demonstrating recall improvements of 20-40% for visual-verbal integrations over verbal-only formats.^[52] In classroom settings, the effect supports the use of illustrated textbooks to boost science comprehension, particularly for abstract concepts like biological processes or physical phenomena. For instance, research on science textbook content shows that illustrations selectively enhance learning outcomes for the depicted material, with students achieving higher accuracy in recalling and applying illustrated sections than non-illustrated ones.^[53] A meta-analysis of 63 studies involving over 7,600 students further confirms that adding illustrations to science texts yields moderate to large effect sizes (g ≈ 0.50) on achievement, underscoring their value in formal instruction without overwhelming learners when aligned with core content.^[54] Digital learning environments capitalize on this effect through infographics, which condense complex information into visual formats to promote retention in e-learning modules. These tools align with multimedia guidelines by pairing concise text with diagrams or icons, thereby minimizing extraneous cognitive load while exploiting pictorial encoding for better long-term recall. When designed to avoid overload, such as by limiting elements per screen, infographics in STEM e-courses have been shown to improve knowledge application for abstract topics, as evidenced by higher post-lesson quiz scores in controlled trials.^[55]

Health Communication and Patient Education

In health communication, the picture superiority effect has been applied to enhance patient recall and adherence to discharge instructions, where textual summaries alone often result in low retention rates. For instance, one study found that automated pictograph-enhanced discharge instructions led to 35% higher immediate recall compared to text-only versions, particularly for critical details like follow-up appointments and warning signs.^[56] Illustrated medication guides exemplify this approach, improving comprehension of dosing schedules in emergency department settings, as patients were more likely to correctly answer related questions post-discharge.^[57] Visual aids leveraging the picture superiority effect also support memory preservation in patients with Alzheimer's disease and mild cognitive impairment. A 2009 study showed that these patients exhibited intact picture superiority, recalling pictorial stimuli at rates comparable to healthy controls (AD patients: approximately 77% accuracy for pictures versus 67% for words), suggesting that images bypass some verbal memory deficits associated with dementia.^[4] This preservation enables the use of visual tools, such as illustrated daily activity charts, to maintain functional recall and reduce caregiver burden in clinical populations. In public health campaigns, infographics exploiting the picture superiority effect have boosted compliance with vaccine recommendations by improving information retention and motivation. For COVID-19 vaccination, distributing infographics at point-of-distribution sites increased second-dose completion rates from 24.2% to 60.9% of daily visits over a three-week period, outperforming county-wide averages by 15.8 percentage points, as visuals clarified eligibility and scheduling to address hesitancy.^[58] Similarly, 2024 research on pictorial warnings for tobacco products, including little cigars and cigarillos, revealed that graphic health labels heightened quit intentions (mean score 2.9 versus 2.5 for text-only) and increased the likelihood of quit attempts (40% versus 30% in controls), promoting cessation behaviors through vivid, memorable depictions of health risks.^[59]

Advertising and Marketing Strategies

In advertising design, the picture superiority effect is exploited to boost brand recall and persuasion by prioritizing visuals over text-heavy formats. Research indicates that consumers remember 65% of information presented visually three days later, compared to only 10-20% for text or oral information alone, making image-rich ads particularly effective for long-term memory retention.^[60] Seminal studies on consumer memory further demonstrate that pictorial elements in advertisements lead to superior recall compared to verbal descriptions, especially when attention is directed toward appearance features of the products depicted.^[61] Iconic images, such as distinctive logos or symbolic visuals, are commonly integrated into branding strategies to create enduring associations that enhance recognition and loyalty.^[62] The effect also strengthens consumer memory for product associations, particularly in packaging where visuals play a key role. For instance, in food packaging, realistic images of the product itself draw greater attention to the brand and improve recall of attributes like freshness or flavor, outperforming text-based labels by facilitating quicker cognitive processing and emotional connections.^[63] This approach leverages the dual-coding of images in memory, storing both visual and verbal traces to reinforce product evaluations during purchase decisions.^[61] In digital marketing, visuals such as memes and infographics capitalize on the picture superiority effect to drive virality and engagement on social media platforms. Content featuring images or videos garners significantly higher interaction rates, with studies from 2023 reporting up to 2.3 times the engagement for image-accompanied posts on platforms like Facebook compared to text-only equivalents.^[64] Similarly, LinkedIn data shows image-inclusive posts achieving twice the engagement of non-visual content, underscoring how these formats amplify shareability and brand exposure in fast-paced online environments.^[65]

Theoretical Models and Integrations

Core Proposed Models

One foundational integrative model for the picture superiority effect combines Allan Paivio's dual-coding theory with Douglas L. Nelson's emphasis on sensory traces. Paivio's framework posits parallel processing pathways: a verbal system for linguistic information and a non-verbal imagery system for visual representations, allowing pictures to activate both codes simultaneously for richer memory traces.^[2] Nelson extends this by highlighting the qualitative superiority of sensory codes in pictures, which provide distinctive perceptual features (e.g., visual configurations) that enhance recognition without altering shared semantic meanings between pictures and words.^[66] This hybrid model conceptualizes memory as involving parallel verbal and imagery paths, where pictures benefit from additive activation—semantic overlap via verbal labels and unique sensory traces via direct visual input—leading to more robust encoding. A schematic diagram of this model illustrates divergent inputs (words to verbal path, pictures to both paths with sensory elaboration), converging at a semantic node, and branching to retrieval cues that favor pictorial traces due to their perceptual distinctiveness. Mary S. Weldon and Henry L. Roediger III proposed an extension emphasizing transfer-appropriate processing, where the picture superiority effect depends on alignment between encoding context and retrieval demands. In their model, pictures excel in conceptually driven tasks (e.g., free recall) because they generate elaborate, context-rich traces during encoding, while words perform better in data-driven tasks (e.g., perceptual identification) due to surface-level feature matching.^[15] This context-matched approach uses a flowchart depicting encoding stages (perceptual analysis for pictures, lexical for words) flowing into retrieval, with arrows indicating compatibility: high overlap for pictures in semantic contexts yields superiority, but mismatch (e.g., implicit perceptual tests) reverses it. The model predicts that environmental or task congruency modulates the effect, attributing superiority to trace reinstatement rather than inherent pictorial advantages alone. In the 2000s, extensions of the multi-store model of memory incorporated emphasis on a visual buffer to explain short-term picture superiority. Building on Atkinson and Shiffrin's classic framework, Alan Baddeley's working memory model highlights the visuospatial sketchpad (visual buffer) as a specialized store for pictorial information, facilitating maintenance and rehearsal of images with less interference from verbal material.^[67] This integration posits that pictures load directly into the buffer, creating durable traces that transfer efficiently to long-term storage, unlike words reliant on phonological loops. These models forecast a 20-50% memory advantage for pictures over words, attributable to greater trace overlap between encoding (visual input) and retrieval (imagery-based cues), particularly in immediate recognition tasks where buffer capacity enhances discriminability.

Recent Integrative and Computational Approaches

Recent integrative approaches to the picture superiority effect have increasingly emphasized distinctiveness-dominant explanations over traditional dual-coding theories, highlighting perceptual and physical factors as primary drivers of memory advantages for pictures. In a 2024 study published in the Quarterly Journal of Experimental Psychology, Higdon, Neath, Surprenant, and Ensor extended prior work by testing the effect in associative recognition and free recall tasks. By manipulating word distinctiveness through color variations and reducing picture variability with black-and-white line drawings, they found that the picture superiority effect was eliminated when physical distinctiveness was equated between modalities. This supports a perceptual account where pictures' advantage stems from greater sensory variability rather than dual representational codes, rendering dual-coding theory untenable for explaining the phenomenon.^[22] Computational modeling efforts have sought to simulate these distinctiveness effects using neural-inspired frameworks, incorporating event-related potentials (ERPs) to validate trace activation dynamics. A 2021 investigation by Haenschel and colleagues utilized high-density ERP recordings to examine picture superiority in autobiographical memory recall via wearable camera photos, revealing enhanced old-new recognition effects over occipital and parietal regions (135–450 ms post-stimulus) that aligned with increased sensitivity for visual sequences. These neural signatures suggest that pictures facilitate stronger, modality-specific encoding traces, which computational models can approximate by weighting activation based on perceptual distinctiveness and semantic integration—such as formulations where picture trace strength is modulated by the product of distinctiveness and semantic factors. This approach addresses prior gaps in model validation by linking behavioral outcomes to neuroimaging data, demonstrating how visual stimuli reduce interference in memory simulations compared to verbal ones.^[68]

Future Research Directions

Unresolved Questions and Gaps

One ongoing debate in the literature concerns whether the picture superiority effect is better explained by distinctiveness accounts rather than dual coding theory. Dual coding theory posits that pictures benefit from both verbal and visual representations, whereas distinctiveness accounts emphasize the perceptual variability of pictures relative to words. Recent experimental evidence has produced mixed results; for instance, increasing word distinctiveness has been shown to eliminate the picture superiority effect in recognition tasks, supporting distinctiveness explanations.^[69] Cultural variations in the picture superiority effect remain underrepresented, with most research conducted in Western populations using stimuli that may not generalize to non-Western visual contexts. This gap limits understanding of whether the effect is universal or modulated by cultural norms in image interpretation. Pictures can also foster overconfidence and false memories, potentially undermining the effect's benefits in applied settings. Recent investigations reveal that AI-edited images and videos exploit visual memorability to implant false recollections, with edited visuals increasing false memory rates by up to 2.05 times compared to unedited ones, particularly for people-related alterations, as participants report higher confidence in distorted events. Such findings from 2024 truthfulness studies underscore how the superiority of pictorial encoding may inadvertently promote misinformation acceptance.^[70] Broader gaps include the scarcity of longitudinal data tracking the effect's stability over extended periods, with existing research largely relying on cross-sectional designs that overlook developmental or age-related trajectories. Additionally, neuroimaging studies from the 2020s remain limited, leaving unanswered questions about the neural substrates—such as potential differences in hippocampal or prefrontal activation—beyond earlier fMRI work, a shortfall exacerbated by outdated reviews predating these advances.

Emerging Methodologies and Interdisciplinary Links

Recent advancements in virtual reality (VR) have introduced immersive methodologies for testing the picture superiority effect, allowing researchers to compare memory performance for three-dimensional visual environments against traditional two-dimensional pictures and textual descriptions. A 2024 study exposed participants to the same room environment via VR, real-life viewing, or 2D pictures, finding that while VR elicited high subjective presence, memory accuracy for object locations was comparable to 2D pictures but inferior to real-life exposure, suggesting VR's potential for ecologically valid simulations without always enhancing recall beyond static images.^[71] Similarly, VR-based cognitive training programs have demonstrated improvements in visual memory tasks among clinical populations, with participants showing better retention of pictured sequences after immersive sessions compared to non-VR controls, highlighting VR's role in probing dynamic picture processing.^[72] Eye-tracking technologies, leveraged with big data analytics in 2025 studies, have enabled large-scale analyses of visual attention patterns underlying the picture superiority effect. For instance, experiments using eye-tracking on high-entropy images revealed that complex visuals draw prolonged gaze durations and enhance subsequent memory for pictured elements over textual counterparts, with datasets from hundreds of participants confirming the effect's robustness in real-world advertising contexts.^[73] Another 2025 investigation extended this to menu design, where eye-tracking data from diverse cohorts showed that pictorial elements captured 40% more fixations than text, leading to superior recall rates and underscoring the scalability of big data for dissecting attentional biases in picture processing.^[74] Interdisciplinary connections to artificial intelligence (AI) have emerged through models simulating human visual memory, often benchmarking against the picture superiority effect to refine computational creativity frameworks. A 2025 study compared preschoolers' object recognition to AI systems, finding human visual perception outperformed AI by 25% in categorizing pictured scenes, prompting integrations where AI architectures incorporate dual-coding principles to mimic picture-enhanced recall in creative tasks like image generation.^[75] Brain-inspired AI techniques, developed in 2025, use neural networks to process images akin to the human ventral stream, achieving up to 90% accuracy in visual memory tasks but revealing gaps in handling abstract pictures, thus linking cognitive psychology to AI development for computable creativity.^[76] In creative divergence experiments, pictures facilitated superior idea generation over words, with AI models trained on such data showing enhanced novelty in outputs.^[77] In clinical psychology, particularly aphasia rehabilitation, ongoing trials in 2023–2025 have incorporated pictured stimuli to exploit superiority effects for language recovery. A 2025 randomized controlled trial of the Communication Bridge-2 intervention for primary progressive aphasia used pictorial naming tasks, resulting in significant gains in word retrieval (effect size d=0.8) compared to verbal-only methods, attributing improvements to pictures' dual semantic-visual encoding.^[78] Virtual picture-naming therapies, tested in 2025, proved equally effective to in-person sessions for aphasic patients, with 70% showing sustained naming improvements post-training, emphasizing pictures' role in accessible clinical protocols.^[79] Another trial examined image types in naming, finding line drawings superior to photographs for initial attention in aphasia, informing tailored visual aids.^[80] Future neuroimaging tests using functional magnetic resonance imaging (fMRI) across cultures aim to map neural underpinnings of the picture superiority effect. A 2024 cross-cultural fMRI study on mnemonic discrimination revealed East Asians engaged more holistic visual networks for pictured stimuli than Western participants, who relied on analytic processing, suggesting cultural modulation of superiority via prefrontal and occipital activations.^[81] Building on 2022 findings of divergent belief-related activations in temporoparietal regions between East Asian and Western groups during visual tasks, emerging protocols propose fMRI paradigms with standardized pictures to quantify cultural variances in memory encoding.^[82] Longitudinal aging cohorts, such as those tracking superagers since 2023, have begun incorporating picture recall to assess preserved visual memory trajectories, with preliminary data indicating slower decline in pictorial over verbal retention into the 90s.^[83] The potential integration of the picture superiority effect with deep learning for emotion detection, as reviewed in 2025, promises enhanced multimodal systems where pictured facial expressions outperform textual descriptions in training accuracy. Systematic reviews highlight convolutional neural networks achieving 85–95% precision in image-based emotion classification, leveraging visual dominance to detect subtle cues missed in linguistic data, with applications in affective computing that echo memory superiority principles.^[84] A 2025 comprehensive analysis of facial emotion recognition frameworks notes that incorporating pictured stimuli boosts model robustness across demographics, facilitating interdisciplinary bridges to psychological interventions.^[85]

References

[1]
Recognition memory for words, sentences, and pictures.
Shepard, RN (1967). Recognition memory for words, sentences, and pictures. Journal of Verbal Learning & Verbal Behavior, 6(1), 156–163.
[2]
Picture superiority in free recall: Imagery or dual coding?
Possible interpretations of this effect include differential verbal elaboration, superiority of nonverbal imagery as a memory code, and dual encoding favoring ...
[3]
The picture superiority effect in patients with Alzheimer's disease ...
The results showed that the picture superiority effect is intact, and that these patients showed a similar benefit to healthy controls from studying pictures ...
[4]
[PDF] Memory for pictures: Sometimes a picure is not worth a single word
This picture superiority effect (PSE), as it has come to be called, is a robust phenomenon with numerous demonstrations of the basic finding that pictures are ...
[5]
https://www.cmu.edu/dietrich/psychology/memorylab/publications/10.1.1.646.3474.pdf
[6]
The visual detection of threat: A cautionary tale
Mar 16, 2013 · ... evolutionary propensity to detect threats automatically in their immediate visual. ... threat detection reflects a process of automatic ...
[7]
Is Reduced Visual Processing the Price of Language? - PMC
Jun 12, 2022 · Bundles connecting modern language processing areas seem to have evolved within the main pathways from the visual areas to the prefrontal ...
[8]
Why Is There So Much More Research on Vision Than on Any ... - NIH
Oct 4, 2019 · While some argue that visual dominance flows from the fact that vision is more accurate and reliable than the other senses, others argue that ...Missing: credible | Show results with:credible
[9]
Hippocampus alters visual representation to encode new memory
May 27, 2025 · The hippocampus-modulated memory ensemble emerging in VIS at an early stage implicates the structural organization of the memory network to encode new memory.
[10]
The hippocampus as a visual area organized by space and time
The hippocampus is the canonical memory system in the brain and is not typically considered part of the visual system. Yet, it sits atop the ventral visual ...
[11]
Monkeys recognize the faces of group mates in photographs - NIH
Dec 4, 2009 · Nonhuman primates posses a highly developed capacity for face recognition, which resembles the human capacity both cognitively and ...
[12]
Recognition memory for words, sentences, and pictures
View PDF; Download full issue. Search ScienceDirect. Elsevier. Journal of Verbal Learning and Verbal Behavior · Volume 6, Issue 1, February 1967, Pages 156-163.
[13]
Perception and memory for pictures: Single-trial learning of 2500 ...
Nov 16, 2013 · These results indicate the vast memory for pictures possessed by human beings and emphasize the need to determine mechanisms by which this is accomplished.
[14]
Learning 10000 pictures - Taylor & Francis Online
May 29, 2007 · From a consideration of the experimental results and other data it is concluded that the superiority of the pictorial mode in recognition and ...
[15]
Effects of retention interval and modality on sensory and semantic ...
Aug 6, 2025 · One possible explanation of this picture-superiority effect is that image processing leads to the automatic retrieval of multiple semantic ...
[16]
Pictorial superiority effect. - Semantic Scholar
... pictorial superiority effect is related to the qualitative superiority of the sensory codes for pictures. Pictures generally show superior recognition ...
[17]
[PDF] Altering retrieval demands reverses the picture superiority effect
Experiment 1 was designed to determine whether the picture superiority effect could be reversed by varying only the type of retrieval task. Subjects saw mixed ...
[18]
Dual coding theory: Retrospect and current status. - APA PsycNet
Paivio, A., & Csapo, K. (1973). Picture superiority in free recall: Imagery or dual coding? Cognitive Psychology, 5(2), 176–206. http://dx.doi.org/10.1016 ...
[19]
Altering retrieval demands reverses the picture superiority effect
We conclude that (1) the type of retrieval query determines whether pictures or words will exhibit superior retention, and (2)our results conform to the ...
[20]
Dual Coding Theory (Allan Paivio) - InstructionalDesign.org
Nov 30, 2018 · The dual coding theory proposed by Paivio attempts to give equal weight to verbal and non-verbal processing.Missing: propositional | Show results with:propositional
[21]
https://pubmed.ncbi.nlm.nih.gov/1003125/
[22]
The picture superiority effect in recognition memory
The picture superiority effect in recognition memory tasks refers to the observation that items studied as pictures are better remembered than items studied as ...Missing: primary | Show results with:primary
[23]
Pictorial superiority effect - PubMed
Abstract. Pictures generally show superior recognition relative to their verbal labels. This experiment was designed to link this pictorial superiority effect ...Missing: semantic framework 1984
[24]
Distinctiveness, not dual coding, explains the picture-superiority effect
The picture-superiority effect is the finding that memory for pictures exceeds memory for words on many tasks. According to dual-coding theory, the pictures ...<|control11|><|separator|>
[25]
Activating representations in permanent memory - PubMed
In Experiment 1, participants categorized pictures reliably faster than words, even when both types of items were of optimal perceptual size. In Experiment 2, a ...
[26]
https://psycnet.apa.org/record/2004-18408-002
[27]
https://link.springer.com/article/10.3758/MC.36.7.1351
[28]
Serial Position Effects and the Picture-Superiority Effect in the Group ...
This research examined how serial position effects (ie, primacy and recency effects) and the picture-superiority effect (ie, the tendency to recall pictures ...Missing: curve Standing
[29]
Conceptual and perceptual factors in the picture superiority effect
Abstract. The picture superiority effect, i.e., better memory for pictures than for corresponding words, has been variously ascribed to a conceptual or a ...Missing: primary | Show results with:primary
[30]
The picture superiority effect in associative recognition
The present study shows that the picture superiority effect extends to associative recognition. In three experiments, students studied lists consisting of ...
[31]
The picture superiority effect in associative memory: A ...
Feb 12, 2019 · Recognition advantage for picture over word stimuli, known as the picture superiority effect. PSE is found for single and associated picture ...
[32]
The picture superiority effect in associative memory: A ...
Feb 12, 2019 · Despite pronounced differences in memory accuracy, the effect of semantic relatedness and the picture superiority effect were comparable in ...Missing: studies | Show results with:studies
[33]
Revisiting the picture-superiority effect in symbolic comparisons
First, large and robust picture- superiority effects have been reported for this task, and these effects have provided key support for the view that pictures ...
[34]
The Picture Superiority Effect - ResearchGate
Thus, compared to textual material, pictorial material encodes social information more deeply and has a stronger visual impact, making it more di cult for ...
[35]
The picture superiority effect in a cross-modality recognition task
The purpose was to investigate the effects of study modality (word or picture), of congruence between study and test modalities, and of priming resulting from ...
[36]
Examining the Picture Superiority Effect in Prospective Memory ...
Sep 1, 2012 · Numerous studies have demonstrated the existence of the picture superiority effect (ie better memory for pictures than words) in retrospective memory.
[37]
The worth of pictures: Using high density event-related potentials to ...
Picture superiority doubly dissociates the ERP correlates of recollection and familiarity. 2011, Journal of Cognitive Neuroscience. View all citing articles ...
[38]
Aging memory for pictures: Using high-density event-related ...
For more than 30 years the picture superiority effect has demonstrated that subjects are more likely to remember items if they are presented as pictures versus ...
[39]
Material-specific lateralization in the medial temporal lobe and ...
... picture superiority effect (Paivio, 1969). Furthermore, there are dissociable activations for different kinds of visuospatial materials in the posterior ...Introduction · Experiment 2: Fmri Study · Discussion
[40]
Picture the difference: electrophysiological investigations of picture ...
We measured the amplitude of the N400, a negative-going potential peaking around 400 ms that has been linked to semantic processing (for review, see [37]), in ...Missing: superiority | Show results with:superiority
[41]
Picture or text first? Explaining sequence effects when learning with ...
The present article reviews 42 studies investigating the role of sequencing of text and pictures for learning outcomes.
[42]
Conditions for a Picture-Superiority Effect on Consumer Memory
picture superiority effect should be removed. HYPOTHESES. Based on the ... 2.5 .117. AXCXD .0 .869 .0 .919. BXCXD. 2.8 .098. 1.9 .166. Four-way interactions.
[43]
Reversing the picture superiority effect: A speed—accuracy trade-off ...
Weldon, M. S., Roediger, H. L., III, &Challis, B. H. (1989). The properties of retrieval cues constrain the picture superiority effect.Memory & Cognition,17, 95 ...
[44]
an eyetracking investigation of the picture superiority effect in ...
Jun 27, 2016 · A range of eyetracking and behavioural measures revealed that participants consistently showed a reversal of the picture superiority effect for ...
[45]
None
Summary of each segment:
[46]
Imagery and Children's Learning: Putting the Picture in ... - jstor
In Rohwer, Kee, and Guy (1975) there was no statistical increase in the superiority of pictures over words with increasing age between 4 and 7 years old, but ...
[47]
A Role for Visual Memory in Vocabulary Development: A Systematic ...
Thus, there is evidence that visually acquired information retains an important role in vocabulary learning across childhood, although the specific contribution ...
[48]
The development of the picture‐superiority effect | Request PDF
Aug 4, 2025 · One possible explanation of this picture-superiority effect is that image processing leads to the automatic retrieval of multiple semantic ...
[49]
Aging memory for pictures: using high-density event ... - PubMed
Jan 31, 2008 · Behavioral results showed that older adults demonstrated the picture superiority effect to a greater extent than younger adults. The ERP data ...
[50]
Pictorial Superiority Effects in Oldest-Old People - PMC - NIH
The picture superiority effect: Support for the distinctiveness model. American Journal of Psychology. 1999;112:113–146. [PubMed] [Google Scholar]; Nelson DL ...
[51]
The picture superiority effect in patients with Alzheimer's disease ...
The results showed that the picture superiority effect is intact, and that these patients showed a similar benefit to healthy controls from studying pictures ...Missing: EEG ERP 2007
[52]
Cognitive and Neural Correlates of the Picture Superiority Effect in ...
Pictures improve memory over words, and patients with Alzheimer's disease (AD) show a much greater improvement than healthy older adults.
[53]
Gist-based Conceptual Processing of Pictures Remains Intact in ...
Jan 9, 2012 · Results: We found that all participants demonstrated a robust picture superiority effect, better performance for pictures than for words.
[54]
Subjective qualities of memories associated with the ... - PubMed
Compared with normal subjects, patients exhibited a lower picture superiority effect selectively related to remember responses. Unlike normal subjects, they did ...
[55]
Age differences in effectiveness of encoding techniques on memory
Across age groups, we showed that drawing, writing, and reading aloud as encoding techniques yielded better memory than silently reading words, with drawing ...
[56]
The Multimedia Principle (Chapter 7) - The Cambridge Handbook of ...
As seen in Table 7.1, multimedia materials that include similar visual components (e.g., diagrams) show smaller average effect sizes for retention compared to ...<|separator|>
[57]
Visual Learning: Understanding the 65% Prevalence Rate
Sep 30, 2025 · A 1998 meta-analysis of instructional design studies reported that visual-based learning (e.g. diagrams) improved recall by 20–40% compared to ...Prevalence Of Visual... · Origin And Evidence For The... · Breakdown Of Visual Learning...
[58]
Utilization of Illustrations during Learning of Science Textbook ...
Experiment 1 showed that the presence of illustrations improved learning of illustrated text content, but not that of nonillustrated text content. Comprehension ...
[59]
(PDF) Effects of Adding Illustrations to Texts on Students' Science ...
Jul 23, 2025 · Adding illustrations to texts might improve students' science achievement. This meta-analysis of 121 effect sizes from 63 studies of 7,621 ...
[60]
Memory and Unforgettable eLearning Infographic - e-Learning ...
Oct 17, 2015 · The Memory and Unforgettable eLearning Infographic shows how cognitive biases can be used when creating eLearning.Missing: overload | Show results with:overload
[61]
The Science Behind eLearning: Why Visuals Improve Memory ...
Aug 8, 2025 · 80% of what we see; 20% of what we read; 10% of what we hear. This phenomenon is known as the Picture Superiority Effect – when learners are ...
[62]
Vision trumps all other senses (Brain Rules by John Medina)
We are incredible at remembering pictures. Hear a piece of information, and three days later you'll remember 10% of it. Add a picture and you'll remember 65%.
[63]
Conditions for a Picture-Superiority Effect on Consumer Memory
The results indicate that picture superiority occurs in both immediate and delayed recall tasks when processing is directed at appearance features. Verbal-only ...
[64]
The Picture-Superiority Effect: Harness the Power of Visuals - NN/G
Apr 26, 2024 · The picture-superiority effect refers to the fact that people tend to remember pictures better than words. This phenomenon is well documented in cognitive ...
[65]
Packaging communication: Attentional effects of product imagery
Aug 10, 2025 · This article provides a theoretical framework for understanding the communicative effects of product imagery on attention to the brand.
[66]
VISUAL CONTENT MARKETING STATISTICS IN 2023 - Amra & Elma
Jun 7, 2025 · A study by BuzzSumo found that posts with images on Facebook receive 2.3 times the engagement of those without them. This is likely because ...Missing: 2x | Show results with:2x
[67]
Global social media statistics research summary - Smart Insights
Feb 14, 2025 · According to LinkedIn, Images typically result in a 2x higher comment rate and Video gets 5x more engagement on LinkedIn, Live Video gets 24x ...Missing: heavy | Show results with:heavy
[68]
(PDF) Pictorial superiority effect - ResearchGate
Sep 29, 2025 · ... Paivio. This chapter focuses on the problem of ... dual code hypothesis as the primary explanation for the pictorial superiority effect.
[69]
Behavioural & ERP Investigation: Wearable Camera Photo Review
Feb 3, 2021 · We observed no differences in the ERPs between the subjective experience of familiarity vs versus recollection responses. This suggests that ...
[70]
Symbolism itself does not improve memory for elements on the ... - NIH
Feb 4, 2025 · Increasing word distinctiveness eliminates the picture superiority effect in recognition: Evidence for the physical-distinctiveness account.<|separator|>
[71]
https://www.researchgate.net/publication/380028214_Testing_memory_of_a_VR_environment_comparison_with_the_real_environment_and_2D_pictures
[72]
Cross-cultural differences in visuo-spatial processing and the culture ...
Feb 4, 2022 · The perception, manipulation and conceptualization of visuo-spatial information differs significantly across cultures, in a way that is relevant to ...
[73]
(PDF) Testing memory of a VR environment: comparison with the ...
Apr 9, 2024 · The present study tested the memory performance of three groups of participants who were exposed to the same environment (a room) through different modalities.<|separator|>
[74]
Virtual reality-based training may improve visual memory and some ...
May 8, 2024 · VR-based cognitive training may prove to be a valuable, efficacious, and well-received tool in terms of improving visual memory and some aspect of ...Missing: picture | Show results with:picture
[75]
The Influences of Image Entropy and Text Direction on Consumer ...
Sep 17, 2025 · Through three eye-tracking experiments, we demonstrate that high-entropy (vs. low-entropy) images and vertical (vs. horizontal) text direction ...
[76]
Exploring Visual Attention, Consumption Vision, and Attitude Toward ...
Sep 23, 2025 · The study also extends the picture superiority effect to real- world settings, showing that visual menu elements outperform text in.
[77]
New research reveals superior visual perception in humans ...
Jul 2, 2025 · In a new study, Assistant Professor Vlad Ayzenberg and other researchers found preschoolers' visual object recognition to be much better than AI's capabilities.Missing: memory superiority 2023-2025
[78]
Brain-inspired AI breakthrough: Making computers see more like ...
Apr 22, 2025 · A new artificial intelligence (AI) technique that brings machine vision closer to how the human brain processes images.
[79]
[PDF] UC Merced - eScholarship
Unlike previous findings on the picture-superiority effect—which suggest that visual stimuli enhance memory encoding—our study indicates that, in creative tasks ...
[80]
Efficacy of Communication Bridge‐2 for primary progressive aphasia ...
Mar 27, 2025 · This report describes the efficacy outcomes from the Communication Bridge-2 (CB2) trial, a superiority RCT of speech-language intervention for ...
[81]
Comparative Effectiveness of In-Person and Virtual Picture-Naming ...
Jan 7, 2025 · The present study examined whether the virtual administration of a picture-naming therapy paradigm was as effective as in-person administration.Missing: superiority 2023-2025
[82]
Picture Naming in the Context of Image Type and Response Variety ...
The observational study aims to investigate the effect of two factors that influence the ease with which aphasic and healthy participants name visual ...Missing: superiority 2023-2025
[83]
[PDF] Cross-cultural comparison of the neural correlates of true and false ...
Jan 24, 2024 · In this study, we use fMRI to assess whether mnemonic discrimination, distinguishing novel from previously encountered stimuli, accounts for.Missing: superiority | Show results with:superiority
[84]
Cultural differences in neurocognitive mechanisms underlying ...
Apr 15, 2022 · Our findings highlight different neurocognitive processes engaged in believing between individuals from East Asian and Western cultures.
[85]
Systematic Review of Image‐Based Emotion Recognition Datasets ...
Oct 20, 2025 · The present systematic review gives a broad overview of the image-based datasets on which emotion has been classified.Missing: superiority effect
[86]
Comprehensive Review and Analysis on Facial Emotion Recognition
Jan 3, 2025 · Research outlines the use of a bespoke CNN architecture for the recognition of fundamental face emotions in static images [25].