Patterns in and kinetics of phase separation in binary mixtures

This work focused mainly on two aspects of kinetics of phase separation in binary mixtures. In the first part, we studied the interplay of hydrodynamics and the phase separation of binary mixtures. A considerably flat container (a laterally extended geometry), at an aspect ratio of 14:1 (diameter: height) was chosen, so that any hydrodynamic instabilities, if they arise, could be tracked. Two binary mixtures were studied. One was a mixture of methanol and hexane, doped with 5% ethanol, which phase separated under cooling. The second was a mixture of butoxyethanol and water, doped with 2% decane, which phase separated under heating. The dopants were added to bring down the phase transition temperature around room temperature.rnrnAlthough much work has been done already on classical hydrodynamic instabilities, not much has been done in the understanding of the coupling between phase separation and hydrodynamic instabilities. This work aimed at understanding the influence of phase separation in initiating any hydrodynamic instability, and also vice versa. Another aim was to understand the influence of the applied temperature protocol on the emergence of patterns characteristic to hydrodynamic instabilities. rnrnOn slowly cooling the system continuously, at specific cooling rates, patterns were observed in the first mixture, at the start of phase separation. They resembled the patterns observed in classical Rayleigh-Bénard instability, which arises when a liquid continuously is heated from below. To suppress this classical convection, the cooling setup was tuned such that the lower side of the sample always remained cooler by a few millikelvins, relative to the top. We found that the nature of patterns changed with different cooling rates, with stable patterns appearing for a specific cooling rate (1K/h). On the basis of the cooling protocol, we estimated a modified Rayleigh number for our system. We found that the estimated modified Rayleigh number is near the critical value for instability, for cooling rates between 0.5K/h and 1K/h. This is consistent with our experimental findings. rnrnThe origin of the patterns, in spite of the lower side being relatively colder with respect to the top, points to two possible reasons. 1) During phase separation droplets of either phases are formed, which releases a latent heat. Our microcalorimetry measurements show that the rise in temperature during the first phase separation is in the order of 10-20millikelvins, which in some cases is enough to reverse the applied temperature bias. Thus phase separation in itself initiates a hydrodynamic instability. 2) The second reason comes from the cooling protocol itself. The sample was cooled from above and below. At sufficiently high cooling rates, there are situations where the interior of the sample is relatively hotter than both top and bottom of the sample. This is sufficient to create an instability within the cell. Our experiments at higher cooling rates (5K/h and above) show complex patterns, which hints that there is enough convection even before phase separation occurs. Infact, theoretical work done by Dr.Hayase show that patterns could arise in a system without latent heat, with symmetrical cooling from top and bottom. The simulations also show that the patterns do not span the entire height of the sample cell. This is again consistent with the cell sizes measured in our experiment.rnrnThe second mixture also showed patterns at specific heating rates, when it was continuously heated inducing phase separation. In this case though, the sample was turbid for a long time until patterns appeared. A meniscus was most probably formed before the patterns emerged. We attribute the reason of patterns in this case to Marangoni convection, which is present in systems with an interface, where local differences in surface tension give rise to an instability. Our estimates for the Rayleigh number also show a significantly lower number than that's required for RB-type instability.rnrnIn the first part of the work, therefore, we identify two different kinds of hydrodynamic instabilities in two different mixtures. Both are observed during, or after the first phase separation. Our patterns compare with the classical convection patterns, but here the origins are from phase separation and the cooling protocol.rnrnIn the second part of the work, we focused on the kinetics of phase separation in a polymer solution (polystyrene and methylcyclohexane), which is cooled continuously far down into the two phase region. Oscillations in turbidity, denoting material exchange between the phases are seen. Three processes contribute to the phase separation: Nucleation of droplets, their growth and coalescence, and their subsequent sedimentation. Experiments in low molecular binary mixtures had led to models of oscillation [43] which considered sedimentation time scales much faster than the time scales of nucleation and growth. The size and shape of the sample therefore did not matter in such situations. The oscillations in turbidity were volume-dominated. The present work aimed at understanding the influence of sedimentation time scales for polymer mixtures. Three heights of the sample with same composition were studied side by side. We found that periods increased with the sample height, thus showing that sedimentation time determines the period of oscillations in the polymer solutions. We experimented with different cooling rates and different compositions of the mixture, and we found that periods are still determined by the sample height, and therefore by sedimentation time. rnrnWe also see that turbidity emerges in two ways; either from the interface, or throughout the sample. We suggest that oscillations starting from the interface are due to satellite droplets that are formed on droplet coalescence at the interface. These satellite droplets are then advected to the top of the sample, and they grow, coalesce and sediment. This type of an oscillation wouldn't require the system to pass the energy barrier required for homogenous nucleation throughout the sample. This mechanism would work best in sample where the droplets could be effectively advected throughout the sample. In our experiments, we see more interface dominated oscillations in the smaller cells and lower cooling rates, where droplet advection is favourable. In larger samples and higher cooling rates, we mostly see that the whole sample becomes turbid homogenously, which requires the system to pass the energy barrier for homogenous nucleation.rnrnOscillations, in principle, occur since the system needs to pass an energy barrier for nucleation. The height of the barrier decreases with increasing supersaturation, which in turn is from the temperature ramp applied. This gives rise to a period where the system is clear, in between the turbid periods. At certain specific cooling rates, the system can follow a path such that the start of a turbid period coincides with the vanishing of the last turbid period, thus eliminating the clear periods. This means suppressions of oscillations altogether. In fact we experimentally present a case where, at a certain cooling rate, oscillations indeed vanish. rnrnThus we find through this work that the kinetics of phase separation in polymer solution is different from that of a low molecular system; sedimentation time scales become relevant, and therefore so does the shape and size of the sample. The role of interface in initiating turbid periods also become much more prominent in this system compared to that in low molecular mixtures.rnrnIn summary, some fundamental properties in the kinetics of phase separation in binary mixtures were studied. While the first part of the work described the close interplay of the first phase separation with hydrodynamic instabilities, the second part investigated the nature and determining factors of oscillations, when the system was cooled deep into the two phase region. Both cases show how the geometry of the cell can affect the kinetics of phase separation. This study leads to further fundamental understandings of the factors contributing to the kinetics of phase separation, and to the understandings of what can be controlled and tuned in practical cases. rn

Progettazione del banco prova per motori ad alta prestazione

Si è progettato un assemblato formato da due container con funzione di porta banco prova motore e una postazione dedicata agli utenti e alle apparecchiature di controllo.

Development of a microgrid with renewable energy sources and electrochemical storage system integration

Beside the traditional paradigm of "centralized" power generation, a new concept of "distributed" generation is emerging, in which the same user becomes pro-sumer. During this transition, the Energy Storage Systems (ESS) can provide multiple services and features, which are necessary for a higher quality of the electrical system and for the optimization of non-programmable Renewable Energy Source (RES) power plants. A ESS prototype was designed, developed and integrated into a renewable energy production system in order to create a smart microgrid and consequently manage in an efficient and intelligent way the energy flow as a function of the power demand. The produced energy can be introduced into the grid, supplied to the load directly or stored in batteries. The microgrid is composed by a 7 kW wind turbine (WT) and a 17 kW photovoltaic (PV) plant are part of. The load is given by electrical utilities of a cheese factory. The ESS is composed by the following two subsystems, a Battery Energy Storage System (BESS) and a Power Control System (PCS). With the aim of sizing the ESS, a Remote Grid Analyzer (RGA) was designed, realized and connected to the wind turbine, photovoltaic plant and the switchboard. Afterwards, different electrochemical storage technologies were studied, and taking into account the load requirements present in the cheese factory, the most suitable solution was identified in the high temperatures salt Na-NiCl2 battery technology. The data acquisition from all electrical utilities provided a detailed load analysis, indicating the optimal storage size equal to a 30 kW battery system. Moreover a container was designed and realized to locate the BESS and PCS, meeting all the requirements and safety conditions. Furthermore, a smart control system was implemented in order to handle the different applications of the ESS, such as peak shaving or load levelling.

Packing a trunk : a physically based approach with full motional freedom

Geometric packing problems may be formulated mathematically as constrained optimization problems. But finding a good solution is a challenging task. The more complicated the geometry of the container or the objects to be packed, the more complex the non-penetration constraints become. In this work we propose the use of a physics engine that simulates a system of colliding rigid bodies. It is a tool to resolve interpenetration conflicts and to optimize configurations locally. We develop an efficient and easy-to-implement physics engine that is specialized for collision detection and contact handling. In succession of the development of this engine a number of novel algorithms for distance calculation and intersection volume were designed and imple- mented, which are presented in this work. They are highly specialized to pro- vide fast responses for cuboids and triangles as input geometry whereas the concepts they are based on can easily be extended to other convex shapes. Especially noteworthy in this context is our ε-distance algorithm - a novel application that is not only very robust and fast but also compact in its im- plementation. Several state-of-the-art third party implementations are being presented and we show that our implementations beat them in runtime and robustness. The packing algorithm that lies on top of the physics engine is a Monte Carlo based approach implemented for packing cuboids into a container described by a triangle soup. We give an implementation for the SAE J1100 variant of the trunk packing problem. We compare this implementation to several established approaches and we show that it gives better results in faster time than these existing implementations.

Giardini per rivivere: orticoltura e giardinaggio a fini terapeutici in contesti sanitari

Questa tesi riassume il lavoro di ricerca da me effettuato per studiare i meccanismi della relazione uomo - pianta su cui si basa l’orticoltura terapeutica, le sue modalità di attuazione e le risposte dei pazienti al lavoro in giardino. La ricerca si è svolta in due diversi giardini terapeutici con pazienti adulti con varie tipologie di disabilità fisica o psichica. Partendo dalla analisi delle basi teoriche su cui si fonda l’ortoterapia, l’obiettivo era di capire come creare le condizioni migliori per ottenere i massimi benefici dall’uso dell’orticoltura e del giardinaggio per il benessere delle persone. Due elementi sono apparsi fondamentali per il raggiungimento degli obiettivi terapeutici: il primo è lo stretto legame esistente tra la forma del giardino e delle piante e la sua funzione terapeutica; il secondo sta nella necessità di creare nel paziente una connessione profonda con il giardino e il lavoro con le piante è risultato essere un fattore determinante per farlo. Utilizzando questionari e osservazioni degli utenti, sono stati raccolti ed elaborati dati relativi al benessere dei pazienti durante e dopo le attività in giardino e si è cercato di trovare un indice, individuato poi nella variazione di percezione del pollice verde, che potesse essere utilizzato per esprimere la soddisfazione del paziente. Infine si è cercato di capire come potesse variare la capacità ristorativa del giardino, in funzione della frequenza di visita e dell’attività che vi si svolgeva, attraverso la somministrazione della versione italiana della scala PRS a chi era impegnato nelle attività di orticoltura e giardinaggio, a chi passeggiava nel parco e a chi invece non lo frequentava regolarmente ma lo conosceva bene: è risultato che le tre modalità di fruizione del giardino davano ai fruitori un potenziale rigenerativo diverso e significativamente più alto per chi metteva le mani nella terra.

Hydrogels for DNA isolation from blood

This dissertation describes the synthesis of surface attached hydrogel biomaterials, characterization of their properties, evaluation of structuring concepts and the investigation of these materials in the isolation of DNA from human whole blood. Photosensitive hydrogel precursor materials on the basis of hydroxyethylmethacrylate (HEMA) were synthesized by free radical polymerization. In order to obtain surface bound hydrogel films, the precursors were deposited on a suitable substrate and subsequently irradatiated with UV - light to accomplish the formation of crosslinks in the film and create surface attachment. The composition of the polymerization precursor materials was determined by comprehensive NMR and GPC studies, revealing the copolymerizationrnbehaviour of the used monomers - HEMA derivatives and the photocrosslinkerrnMABP - and their respective distribution in the hydrogel precursors. The degree of crosslinking of the hydrogels was characterized with UV/vis spectroscopy. Stress-strain measurements were conducted in order to investigate the mechanical properties of the biomaterials. Moreover, the swelling process and biomolecule adsorption properties of the hydrogels were investigated with SPR/OW spectroscopy. For this, the deposition and binding of the hydrogels on gold or SiO2 surfaces was facilitated with photocrosslinkable adhesion promotors. The produced hydrogels were mechanically rigid and stablernunder the conditions of PCR and blood lysis. Furthermore, strategies towards the increase of hydrogel surface structure and porosity with porosigens, 2D laser interference lithography and photocleavable blockcopolymers were investigated. At last, a combinatorial strategy was used for the determination of the usefulness of hydrogels for the isolation from DNA from blood. A series of functionalized hydrogel precursors were synthesized, transferred to the surface inside a PCR tube and subsequently screened in regard to DNA adsorption properties with Taqman quantitative PCR. This approach yielded a promising candidate for a functional PCR tube coating that would allow the entire DNA isolation procedure being carried out in a single reaction container.rnThereforce, the practical application of such macromolecular architectures can be envisioned to improve industrial DNA diagnostic processes.

Progettazione ed efficientamento energetico di un campo umanitario.

UNHRD è un Network di Basi Operative di Pronto Intervento Umanitario delle Nazioni Unite, con sei sedi nel mondo, in grado di inviare aiuti di prima necessità in qualsiasi parte del mondo entro 24-48 ore. Creata nel 2000, quella di Brindisi è la prima base del Network. Nel 2014, all’interno di UNHRD di Brindisi, nasce una nuova unità di ricerca e sviluppo, chiamata UNHRD LAB, per revisionare, testare e sviluppare prodotti innovativi contribuendo al miglioramento delle risposte alle emergenze umanitarie. Il LAB, gestito da esperti del campo, lavora in collaborazione con centri di ricerca, fornitori, Organizzazioni Non Governative, Agenzie Governative e con l’Università di Bologna, grazie alla quale ho avuto la possibilità di trascorrere sei mesi all’interno di questa nuova unità. Lavorando in stretta collaborazione con Nicolas Messmer, esperto del campo e responsabile del LAB, ho appurato che la progettazione di un campo umanitario al giorno d’oggi non segue metodi standardizzati, ma si basa sul buon senso di tecnici esperti che stimano numero e tipologie di container da inviare per allestirlo, sulla base dei quali si definiscono i fabbisogni energetici da soddisfare. Al fine di migliorare e velocizzare l’allestimento di un campo umanitario, ho deciso di proporre la creazione di tre standard di campo: piccolo, medio e grande (in funzione del numero degli operatori destinati ad accogliere) definire tipologia e numero di prodotti da inviare nei tre casi, individuare il fabbisogno energetico e ottimizzarlo proponendo soluzioni a basso consumo. Uno dei focus del LAB è infatti la “green techonolgy”, ovvero la ricerca di soluzioni a basso impatto ambientale, da qui i miei studi verso l’efficientamento energetico e l’attenzione verso nuove tecnologie ecofriendly come il fotovoltaico.

Deployment automatico di applicazioni specificate in linguaggio ABS

Da quando è iniziata l'era del Cloud Computing molte cose sono cambiate, ora è possibile ottenere un server in tempo reale e usare strumenti automatizzati per installarvi applicazioni. In questa tesi verrà descritto lo strumento MODDE (Model-Driven Deployment Engine), usato per il deployment automatico, partendo dal linguaggio ABS. ABS è un linguaggio a oggetti che permette di descrivere le classi in una maniera astratta. Ogni componente dichiarato in questo linguaggio ha dei valori e delle dipendenze. Poi si procede alla descrizione del linguaggio di specifica DDLang, col quale vengono espressi tutti i vincoli e le configurazioni finali. In seguito viene spiegata l’architettura di MODDE. Esso usa degli script che integrano i tool Zephyrus e Metis e crea un main ABS dai tre file passati in input, che serve per effettuare l’allocazione delle macchine in un Cloud. Inoltre verranno introdotti i due sotto-strumenti usati da MODDE: Zephyrus e Metis. Il primo si occupa di scegliere quali servizi installare tenendo conto di tutte le loro dipendenze, cercando di ottimizzare il risultato. Il secondo gestisce l’ordine con cui installarli tenendo conto dei loro stati interni e delle dipendenze. Con la collaborazione di questi componenti si ottiene una installazione automatica piuttosto efficace. Infine dopo aver spiegato il funzionamento di MODDE viene spiegato come integrarlo in un servizio web per renderlo disponibile agli utenti. Esso viene installato su un server HTTP Apache all’interno di un container di Docker.

Modernizzazione dei sistemi satellitari di posizionamento globale (GNSS)

In questa tesi, sono esposti i sistemi di navigazione che si sono evoluti, parimenti con il progresso scientifico e tecnologico, dalle prime misurazioni della Terra, per opera della civiltà ellenica, circa 2.500 anni fa, sino ai moderni sistemi satellitari e ai mai tramontati sistemi di radionavigazione. I sistemi di navigazione devono rispondere alla sempre maggiore richiesta di precisione, affidabilità, continuità e globalità del servizio, della società moderna. È sufficiente pensare che, attualmente, il solo traffico aereo civile fa volare 5 miliardi di passeggeri ogni anno, in oltre 60 milioni di voli e con un trasporto cargo di 85 milioni di tonnellate (ACI - World Airports Council International, 2012). La quota di traffico marittimo mondiale delle merci, è stata pari a circa 650 milioni di TEU (twenty-foot equivalent unit - misura standard di volume nel trasporto dei container ISO, corrisponde a circa 40 metri cubi totali), nel solo anno 2013 (IAPH - International Association of Ports and Harbors, 2013). Questi pochi, quanto significativi numeri, indicano una evidente necessità di “guidare” questo enorme flusso di aerei e navi in giro per il mondo, sempre in crescita, nella maniera più opportuna, tracciando le rotte adeguate e garantendo la sicurezza necessaria anche nelle fasi più delicate (decollo e atterraggio per gli aeroplani e manovre in porto per le grandi navi). Nello sviluppo della tesi si proverà a capire quali e quanto i sistemi di navigazione possono assolvere al ruolo di “guida” del trasporto aereo e marittimo.

Progettazione di pavimentazioni portuali

L’oggetto di studio della tesi è centrato sulla progettazione di pavimentazioni ad alta resistenza nell’ambito dei porti commerciali. Nel capitolo 1, viene effettuata una descrizione delle caratteristiche principali dei porti, proseguendo con l’esposizione dei principi organizzativi dei porti commerciali. In particolar modo, vengono illustrate le operazioni che si registrano in un terminal container e le proprietà dei diversi mezzi speciali che vi operano. Nel capitolo successivo, si procede con la definizione dei materiali più comunemente utilizzati nella realizzazione delle pavimentazioni di un porto e quindi con la descrizione delle principali tipologie di soluzioni adottate nella progettazione. Successivamente, nel capitolo 3, vengono enunciati i principali metodi di calcolo per la progettazione di una pavimentazione portuale e si prosegue con l’approfondimento del metodo descritto dal manuale pubblicato dalla British Ports Association (BPA):”The structural design of heavy duty pavements for ports and other industries”. Infine, nell’ultimo capitolo, viene illustrato il processo di progettazione in base al metodo BPA, mediante lo svolgimento di un esempio di calcolo della pavimentazione.

Halogen lamp and led activation of resin-modified glass ionomer restorative material. In vitro microhardness after long term storage

AIM: The purpose of this study was to evaluate the activation of resin-modified glass ionomer restorative material (RMGI, Vitremer-3M-ESPE, A3) by halogen lamp (QTH) or light-emitting diode (LED) by Knoop microhardness (KHN) in two storage conditions: 24hrs and 6 months and in two depths (0 and 2 mm). MATERIALS AND METHODS: The specimens were randomly divided into 3 experimental groups (n=10) according to activation form and evaluated in depth after 24h and after 6 months of storage. Activation was performed with QTH for 40s (700 mW/cm2) and for 40 or 20 s with LED (1,200 mW/scm2). After 24 hrs and 6 months of storage at 37°C in relative humidity in lightproof container, the Knoop microhardness test was performed. Statistics Data were analysed by three-way ANOVA and Tukey post-tests (p<0.05). RESULTS: All evaluated factors showed significant differences (p<0.05). After 24 hrs there were no differences within the experimental groups. KHN at 0 mm was significantly higher than 2 mm. After 6 months, there was an increase of microhardness values for all groups, being the ones activated by LED higher than the ones activated by QTH. CONCLUSION: Light-activation with LED positively influenced the KHN for RMGI evaluated after 6 months.

Kinora and Double Kinora (Mutoscope)

The mutoscope is a cylindrical container ranging in size from a large, standing viewing station down to a smaller, more transportable unit. These machines hold hundreds of small cards with images printed on them attached to a circular core. This core is attached to an external crank which is turned by the viewer. The booklet turns, and the cards are held tensely bent into viewing position by a small metal piece. As the cards flip by, the rapid frame rate produces the illusion of a moving image (Rossell,Living Pictures, 96).

A study of high solids anaerobic digestion of Bucknell University food waste followed by aerobic curing

Anaerobic digestion of food scraps has the potential to accomplish waste minimization, energy production, and compost or humus production. At Bucknell University, removal of food scraps from the waste stream could reduce municipal solid waste transportation costs and landfill tipping fees, and provide methane and humus for use on campus. To determine the suitability of food waste produced at Bucknell for high-solids anaerobic digestion (HSAD), a year-long characterization study was conducted. Physical and chemical properties, waste biodegradability, and annual production of biodegradable waste were assessed. Bucknell University food and landscape waste was digested at pilot-scale for over a year to test performance at low and high loading rates, ease of operation at 20% solids, benefits of codigestion of food and landscape waste, and toprovide digestate for studies to assess the curing needs of HSAD digestate. A laboratory-scale curing study was conducted to assess the curing duration required to reduce microbial activity, phytotoxicity, and odors to acceptable levels for subsequent use ofhumus. The characteristics of Bucknell University food and landscape waste were tested approximately weekly for one year, to determine chemical oxygen demand (COD), total solids (TS), volatile solids (VS), and biodegradability (from batch digestion studies). Fats, oil, and grease and total Kjeldahl nitrogen were also tested for some food waste samples. Based on the characterization and biodegradability studies, Bucknell University dining hall food waste is a good candidate for HSAD. During batch digestion studies Bucknell University food waste produced a mean of 288 mL CH4/g COD with a 95%confidence interval of 0.06 mL CH4/g COD. The addition of landscape waste for digestion increased methane production from both food and landscape waste; however, because the landscape waste biodegradability was extremely low the increase was small.Based on an informal waste audit, Bucknell could collect up to 100 tons of food waste from dining facilities each year. The pilot-scale high-solids anaerobic digestion study confirmed that digestion ofBucknell University food waste combined with landscape waste at a low organic loading rate (OLR) of 2 g COD/L reactor volume-day is feasible. During low OLR operation, stable reactor performance was demonstrated through monitoring of biogas production and composition, reactor total and volatile solids, total and soluble chemical oxygendemand, volatile fatty acid content, pH, and bicarbonate alkalinity. Low OLR HSAD of Bucknell University food waste and landscape waste combined produced 232 L CH4/kg COD and 229 L CH4/kg VS. When OLR was increased to high loading (15 g COD/L reactor volume-day) to assess maximum loading conditions, reactor performance became unstable due to ammonia accumulation and subsequent inhibition. The methaneproduction per unit COD also decreased (to 211 L CH4/kg COD fed), although methane production per unit VS increased (to 272 L CH4/kg VS fed). The degree of ammonia inhibition was investigated through respirometry in which reactor digestate was diluted and exposed to varying concentrations of ammonia. Treatments with low ammoniaconcentrations recovered quickly from ammonia inhibition within the reactor. The post-digestion curing process was studied at laboratory-scale, to provide a preliminary assessment of curing duration. Digestate was mixed with woodchips and incubated in an insulated container at 35 °C to simulate full-scale curing self-heatingconditions. Degree of digestate stabilization was determined through oxygen uptake rates, percent O2, temperature, volatile solids, and Solvita Maturity Index. Phytotoxicity was determined through observation of volatile fatty acid and ammonia concentrations.Stabilization of organics and elimination of phytotoxic compounds (after 10–15 days of curing) preceded significant reductions of volatile sulfur compounds (hydrogen sulfide, methanethiol, and dimethyl sulfide) after 15–20 days of curing. Bucknell University food waste has high biodegradability and is suitable for high-solids anaerobic digestion; however, it has a low C:N ratio which can result in ammonia accumulation under some operating conditions. The low biodegradability of Bucknell University landscape waste limits the amount of bioavailable carbon that it can contribute, making it unsuitable for use as a cosubstrate to increase the C:N ratio of food waste. Additional research is indicated to determine other cosubstrates with higher biodegradabilities that may allow successful HSAD of Bucknell University food waste at high OLRs. Some cosubstrates to investigate are office paper, field residues, or grease trap waste. A brief curing period of less than 3 weeks was sufficient to produce viable humus from digestate produced by low OLR HSAD of food and landscape waste.

Capuchin Monkeys (Cebus apella) Fail to Be Equitable in an Ultimatum Game

The ultimatum game is a commonly used economics game testing humans' sense of fairness. In the game, a "proposer" is given a sum of money and is told they can split it however they want with another human partner. The partner can then either accept the division and both proposer and responder receive the proposed amounts, or the responder can reject the offer and neither player will get anything. Human subjects from most western cultures typically share almost half of an allotted amount, but it remains unknown whether our close primate relatives share this generosity. Recent attempts to present chimpanzees with the ultimatum game have provided inconclusive results, with some studies finding the animals share humans' disposition to behave 'fairly' and others concluding that chimpanzees act selfishly to maximize their own rewards. Capuchin monkeys are known to share many human and chimpanzee social and cooperative behaviors, and this study was the first to present capuchin monkeys with a version of the ultimatum game. Subjects were presented with two differently colored tokens representing different qualitative reward contingencies, one equitable and the other inequitable in favor of the subject proposer. Subjects could select and place one of the tokens in a transfer container. The capuchins were first tested with a "dictator game" where, after the subject monkey selected a token, the rewards (equitable or inequitable) were distributed to the subject and a nearby partner monkey that was not an active participant. The capuchins were then tested on an ultimatum game in which after the subject selected and placed a token in the container, the container was moved to the partner. The partner needed to remove the token and transfer it back to the experimenter for the rewards to be distributed. As such, the partner could reject the subject's offer by refusing to participate and neither would receive a reward. The experiment was conducted to determine if the subject monkey would select the equitable reward option rather than the selfish option in order to maintain the partner's cooperation in the task. Capuchin subjects behaved selfishly and selected the inequitable token significantly more often than the equitable token in both the dictator and ultimatum game with no significant difference in preference between the two games. Interestingly, despite the occasional occurrence of rejection by the partner monkeys (resulting in no reward for the subject), subjects never altered their strategy, continuing to prefer the selfish token. The study may indicate that capuchin monkeys have an inability to judge the effect of their behavior on a conspecific's reward outcome, or an indifference to the outcome if there is an individual cost associated with behaving prosocially.

Statistical Analyses and Reproducible Research

For various reasons, it is important, if not essential, to integrate the computations and code used in data analyses, methodological descriptions, simulations, etc. with the documents that describe and rely on them. This integration allows readers to both verify and adapt the statements in the documents. Authors can easily reproduce them in the future, and they can present the document's contents in a different medium, e.g. with interactive controls. This paper describes a software framework for authoring and distributing these integrated, dynamic documents that contain text, code, data, and any auxiliary content needed to recreate the computations. The documents are dynamic in that the contents, including figures, tables, etc., can be recalculated each time a view of the document is generated. Our model treats a dynamic document as a master or ``source'' document from which one can generate different views in the form of traditional, derived documents for different audiences. We introduce the concept of a compendium as both a container for the different elements that make up the document and its computations (i.e. text, code, data, ...), and as a means for distributing, managing and updating the collection. The step from disseminating analyses via a compendium to reproducible research is a small one. By reproducible research, we mean research papers with accompanying software tools that allow the reader to directly reproduce the results and employ the methods that are presented in the research paper. Some of the issues involved in paradigms for the production, distribution and use of such reproducible research are discussed.