Achieving secure and efficient access control of personal health records in a storage cloud

Binbusayyis, Adel

January 2017

A personal health record (PHR) contains health data about a patient, which is maintained by the patient. Patients may share their PHR data with a wide range of users such as healthcare providers and researchers through the use of a third party such as a cloud service provider. To protect the confidentiality of the data and to facilitate access by authorized users, patients use Attribute-Based Encryption (ABE) to encrypt the data before uploading it onto the cloud servers. With ABE, an access policy is defined based on users' attributes such as a doctor in a particular hospital, or a researcher in a particular university, and the encrypted data can only be decrypted if and only if a user's attributes comply with the access policy attached to a data object. Our critical analysis of the related work in the literature shows that existing ABE based access control frameworks used for sharing PHRs in a storage cloud can be enhanced in terms of scalability and security. With regard to scalability, most existing ABE based access control frameworks rely on the use of a single attribute authority to manage all users, making the attribute authority into a potential bottleneck regarding performance and security. With regard to security, the existing ABE based access control frameworks assume that all users have the same level of trust (i.e. they are equally trustworthy) and all PHR data files have the same sensitivity level, which means that the same protection level is provided. However, in our analysis of the problem context, we have observed that this assumption may not always be valid. Some data, such as patients' personal details and certain diseases, is more sensitive than other data, such as anonymised data. Access to more sensitive data should be governed by more stringent access control measures. This thesis presents our work in rectifying the two limitations highlighted above. In doing so, we have made two novel contributions. The first is the design and evaluation of a Hierarchical Attribute-Based Encryption (HABE) framework for sharing PHRs in a storage cloud. The HABE framework can spread the key management overheads imposed on a single attribute authority tasked with the management of all the users into multiple attribute authorities. This is achieved by (1) classifying users into different groups (called domains) such as healthcare, education, etc., (2) making use of multiple attribute authorities in each domain, (3) structuring the multiple attribute authorities in each domain in a hierarchical manner, and (4) allowing each attribute authority to be responsible for managing particular users in a specific domain, e.g. a hospital or a university. The HABE framework has been analyzed and evaluated in term of security and performance. The security analysis demonstrates that the HABE framework is resistant to a host of security attacks including user collusions. The performance has been analyzed in terms of computational and communication overheads and the results show that the HABE framework is more efficient and scalable than the most relevant comparable work. The second novel contribution is the design and evaluation of a Trust-Aware HABE (Trust+HABE) framework, which is an extension of the HABE framework. This framework is also intended for sharing PHRs in a storage cloud. The Trust+HABE framework is designed to enhance security in terms of protecting access to sensitive PHR data while keeping the overhead costs as low as possible. The idea used here is that we classify PHR data into different groups, each with a distinctive sensitivity level. A user requesting data from a particular group (with a given sensitivity level) must demonstrate that his/her trust level is not lower than the data sensitivity level (i.e. trust value vs data sensitivity verification). A user's trust level is derived based on a number of trust-affecting factors, such as his/her behaviour history and the authentication token type used to identify him/herself etc. For accessing data at the highest sensitivity level, users are required to get special permissions from the data owners (i.e. the patients who own the data), in addition to trust value vs data sensitivity verification. In this way, the framework not only adapts its protection level (in imposing access control) in response to the data sensitivity levels, but also provides patients with more fine-grained access control to their PHR data. The Trust+HABE framework is also analysed and evaluated in term of security and performance. The performance results from the Trust+HABE framework are compared against the HABE framework. The comparison shows that the additional computational, communication, and access delay costs introduced as the result of using the trust-aware approach to access control in this context are not significant compared with computational, communication, and access delay costs of the HABE framework.

004

Abe Lincoln in Illinois: from historical figure to state character

Cook, Harlin Maurice, 1925-

January 1952

No description available.

Historical drama -- Technique.

Multi-objective Optimization of Butanol Production During ABE Fermentation

Sharif Rohani, Aida

05 December 2013

Liquid biofuels produced from biomass have the potential to partly replace gasoline. One of the most promising biofuels is butanol which is produced in acetone-butanol-ethanol (ABE) fermentation. The ABE fermentation is characterized by its low butanol concentration in the final fermentation broth. In this research, the simulation of three in situ recovery methods, namely, vacuum fermentation, gas stripping and pervaporation, were performed in order to increase the efficiency of the continuous ABE fermentation by decreasing the effect of butanol toxicity. The non-integrated and integrated butanol production systems were simulated and optimized based on a number of objectives such as maximizing the butanol productivity, butanol concentration, and butanol yield. In the optimization of complex industrial processes, where objectives are often conflicting, there exist numerous potentially-optimal solutions which are best obtained using multi-objective optimization (MOO). In this investigation, MOO was used to generate a set of alternative solutions, known as the Pareto domain. The Pareto domain allows to view very clearly the trade-offs existing between the various objective functions. In general, an increase in the butanol productivity resulted in a decrease of butanol yield and sugar conversion. To find the best solution within the Pareto domain, a ranking algorithm (Net Flow Method) was used to rank the solutions based on a set of relative weights and three preference thresholds. Comparing the best optimal solutions in each case study, it was clearly shown that integrating a recovery method with the ABE fermentation significantly increases the overall butanol concentration, butanol productivity, and sugar conversion, whereas butanol yield being microorganism-dependent, remains relatively constant.

ABE fermentation

Butanol

Multi-objective optimization

In-situ solvent recovery

Integrated fermentation

Net Flow Method

"Womenomics" : The Political and Economic Policies for Women's Emancipation?

Narayaem Lindman, Lipikar

January 2018

Although there has been substantial progress toward gender equality, great disparities still persist. Across the globe, women face widespread gender gaps in the division of household responsibilities, economic resources, limited access to educational opportunities, and legal and political barriers to political power. Japan is one of the countries that has been falling behind, and has for several years been facing criticism from major international organisations for the persistent gender gaps in its economy, politics, and society. Furthermore, Japan has for a long time been influenced by Confucian tradition where the emphasis has been on strong gender norms and division. In 2013, Prime Minister Shinzo Abe launched new economic policies to restart and stimulate Japan’s economic growth. He encourages an increase of active inclusion of women’s participation, and his policies came to be widely known as “Womenomics”. The ambition of this paper is to discover Prime Minister Shinzo Abe’s view on women’s role in his new policies, and to conduct a dimension analysis on “Womenomics”. The analysis is based on the theoretical framework of Confucianism and Liberal Feminism, to see whether one can discover elements of Confucianism and/or Liberal Feminism in “Womenomics”. The results indicate that the prime minister consider women’s role mostly in regards to economics, and the policies and the view on women’s role are foremost aligned with the political ideas of Liberal Feminism.

Womenomics

Liberal feminism

Confucianism

women's role

Shinzo Abe

Political Science

Statsvetenskap

The Common Voice from Japan: A Performance Guide and Examination of the Three Unaccompanied Marimba Pieces Performed by Keiko Abe on October 4th, 1968

January 2016

abstract: ABSTRACT Torse III (1965) by Akira Miyoshi, Two Movements for Marimba (1965) by Toshimistu Tanaka, and Time for Marimba (1968) by Minoru Miki have remained “tour de force” pieces in the marimba repertoire since their inception nearly fifty years ago, yet they continue to present significant performance and interpretative issues to each new generation of marimbists. This document will serve as both a performance guide for advanced marimba performers, as well as provide insight into the aesthetic qualities that contribute to their lasting artistic significance. Each piece will receive a designated chapter discussing the historical context, technical challenges, and general performance practices. The author will also present a designated chapter discussing the three over-arching aesthetic characteristics found in all three pieces: the use of the entire range of the instrument, the use of extreme contrasting dynamics and timbre, and the use of a common harmonic language. Torse III, Two Movements, and Time were famously performed by Keiko Abe on her first classical marimba recital in 1968. This document will also help bring to light the enormous impact this recital had on the history of the marimba, as marimbists throughout the world today are forever indebted to Abe’s efforts. / Dissertation/Thesis / Doctoral Dissertation Music 2016

Music

Performing arts

Akira Miyoshi

Japanese

Keiko Abe

Marimba

Minoru Miki

Toshimitsu Tanaka

A Neoclassical Realist Analysis of Japanese Defense Policy

Sydow, Brian

01 January 2017

Postwar Japan’s defense policy is an anomaly; it is a non-neutral middle power that has regularly resisted translating its economic strength into military strength. This paper seeks to analyze postwar Japan’s defense policy at the international systemic and domestic unit levels through the use of neoclassical realism, and then make predictions as to where Japanese defense policy will go. First, this paper provides an overview of relevant neoclassical realist theoretical literature, before moving on to an examination of the norms created by Japan’s defense policies during the Cold War. The next chapter focuses on the post-Cold War evolution, in which systemic level factors pushed Japan towards rearmament. Next is an analysis of the most recent period of leadership by Prime Minister Shinzo Abe, covering the challenges that Japan faces and the methods he and his administration have used to advance Japanese security policy, short of constitutional amendment. This paper then examines the current state and trends of national-level factors restricting policymakers, and predicts whether these trends will continue. This paper concludes that international-level pressures have consistently driven the major changes to Japanese defense policy, though these responses have been restricted by national-level factors, in particular Article 9 of the constitution and large pacifist protests. However, these factors are becoming less and less effective at restraining an expansion of Japan’s Self Defense Forces (SDF). Furthermore, there has been little effort to rollback the remilitarization of the SDF. Given the strength of the pro-constitutional-revision Liberal Democratic Party, the weakness of the opposition in the Diet, and the continuing decline of the importance of pacifism to the Japanese public, this paper concludes that Article 9 will be revised to allow for the expansion of Japan’s security policy. This conclusion can provide insight into how Japan will be able to act in the future, and thereby help plan the foreign policies of other nations in the region.

Neoclassical realism

Japan

Shinzo Abe

Security Policy

Asian Studies

International Relations

Improvements in Biobutanol Production: Separation and Recovery by Adsorption

Abdehagh, Niloofar

January 2016

Due to environmental challenges, depleting oil resources, rising cost of oil and instability in oil-producing countries, biofuel production has attracted a lot of attention in recent decades. Biobutanol is one of the biofuels showing the most potential as an alternative for partly replacing petroleum-based fuels. Both researchers and industrialists are currently working at developing an energy-effective process to produce biobutanol at a large scale. Acetone-butanol-ethanol (ABE) fermentation is the biological process of biobutanol production and Clostridia are the most common bacteria used to produce biobutanol. However, there are several challenges in the butanol bioproduction process that should be addressed to make this process economically viable. The main challenge in the biobutanol production process is the low concentration of butanol in the ABE fermentation broth. It is therefore important to develop an efficient separation method. Several separation methods such as distillation, liquid-liquid extraction (LLE), pervaporation, gas stripping and adsorption have been considered to recover butanol from dilute solutions and ABE fermentation broths. Adsorption is considered as one of the most promising methods due to its high performance and energy efficiency for butanol separation. In this study, the focus was on developing an efficient separation method for butanol recovery from dilute model solution and fermentation broth using adsorption. A comprehensive adsorbent screening was first carried out to identify the best commercially available adsorbent among a series of potentially promising adsorbents. Activated carbon (AC) F-400 was selected for further experimentation since it showed high adsorption capacity and adsorption rate in addition to high selectivity toward butanol. AC F-400 was then tested extensively in packed adsorption column experiments for binary and ABE model solutions and fermentation broths to investigate the competitive adsorption between butanol and other components present in ABE broths. The results showed that the butanol adsorption capacity was not affected by the presence of ethanol, glucose and xylose while the presence of acetone led to a slight decrease in adsorption capacity at low butanol concentrations. On the other hand, the presence of acids (acetic acid and butyric acid) in the ABE broth showed a significant effect on the butanol adsorption capacity over a wide ii range of butanol concentration and this effect was more pronounced for butyric acid. At the end, different competitive adsorption isotherm models were also studied to appropriately represent the behaviour of the competitive adsorption. Desorption of butanol was subsequently investigated to evaluate both the desorption capacity of butanol and the capability of the adsorbent particles to be used for multiple adsorption-desorption cycles. The results of this set of experiments showed that AC F-400 can retain its initial adsorption capacity after 6 adsorption/desorption cycles. The recovery of butanol from butanol-water (1.5 wt%) binary and ABE model solutions was 84 and 80% with butanol adsorption capacity of 302 and 171 mg/g, respectively. The combination of adsorption and gas stripping techniques was also studied to investigate the performance of CO2 gas stripping of solvents from the model solutions and fermentation broths followed by adsorption. The results showed that the butanol adsorption capacity of the overall system for binary solutions (260 mg/g for a binary butanol-water solution of 15 g/L with vapour phase concentration of 5.8 mg/L), ABE model solutions (192 mg/g for a corresponding vapour concentration of 5.2 mg/L) and ABE fermentation broths (247 mg/g for a corresponding vapour phase concentration of 2.5 mg/L) was higher than what has been published in the literature. Finally, a model was developed and adequately validated the experimental data to predict the behaviour of the ABE compounds in a packed bed adsorption column for butanol separation from dilute solutions.

Biofuel

BIobutanol

Adsorption

Desoprtion

Gas stripping

ABE fermentation

Multicomponent adsorption isotherm

Pervaporation Separation of Butanol Using PDMS Mixed Matrix Membranes

Azimi, Hoda

January 2017

The increased demand of fossil fuel along with the depletion of economical crude oil resources, environmental challenges such as the accumulation of CO2 and other greenhouse gases in the atmosphere and the reduction of the dependence on imported oil are some of the motivations for the huge interest in biofuels. Biobutanol produced from ABE fermentation has been considered to be a good partial replacement for fossil fuels. However, challenges such as the need for inexpensive feed-stocks, improved fermentation performance to achieve higher final butanol concentration and higher yield, an efficient method for solvent recovery, and water recycle are the main obstacles to make the production of this alcohol economically viable. Pervaporation, a membrane-based process, is considered to be an attractive separation method to remove butanol from ABE fermentation broth. Among the membranes used for butanol separation, PDMS membranes showed reasonable performance such as good permeability, and appropriate selectivity for butanol separation by pervaporation. However, PDMS membranes need to be improved in terms of performance to be applicable in large scale butanol production plants. In this study, activated carbon nanoparticles have been embedded into the matrix of the PDMS membrane to improve its separation performance and, in particular, the permeation flux and butanol selectivity. Result showed that the presence of nanoparticles improves the PDMS membrane performance up to a certain particle loading. Moreover, it was shown that the operating conditions have a major impact on the pervaporation membrane separation process. The best membrane for pervaporation separation of butanol from binary aqueous solutions was obtained for a 6 wt% particle concentration where the total permeation flux and butanol selectivity increased by 42.6% and 51.9%, respectively, compared to neat PDMS membranes. Moreover, the best performance for the separation of butanol from ABE model solutions was achieved for an 8 wt% nanoparticle loading. Both the selectivity for butanol and the total permeation flux more than doubled in comparison to neat PDMS membranes prepared in this study. Moreover, in order to compare the PDMS/AC mixed matrix membrane performance for pervaporation separation of butanol from binary and ABE model solutions with PDMS membranes available on the market, experiments were also performed with a commercial PDMS membrane. Result of butanol separation from ABE model solutions showed that mixed matrix membranes with 8 wt% nanoparticles loading had a higher permeation flux than that of the commercial membranes. It was clearly shown that the presence of activated carbon nanoparticles in the matrix of the PDMS would be beneficial for the pervaporation separation of butanol from ABE fermentation broths. To better comprehend how the presence of activated carbon nanoparticles in the polymeric membranes enhance the performance of the membranes, a series of numerical simulations were performed. A finite difference model was developed to simulate the mass transfer of permeating components through mixed matrix membranes by pervaporation for a wide range of relative permeability, nanoparticle loading, particle shape, particle size and different filler adsorption isotherms. Finally, an investigation has been performed to optimize the butanol pervaporation separation process from ABE fermentation broth at an industrial scale.

Pervaporation

PDMS

Butanol

Mixed matrix membrane

Activated carbon nanoparticle

ABE fermentation

Multi-objective Optimization of Butanol Production During ABE Fermentation

Sharif Rohani, Aida

January 2013

Liquid biofuels produced from biomass have the potential to partly replace gasoline. One of the most promising biofuels is butanol which is produced in acetone-butanol-ethanol (ABE) fermentation. The ABE fermentation is characterized by its low butanol concentration in the final fermentation broth. In this research, the simulation of three in situ recovery methods, namely, vacuum fermentation, gas stripping and pervaporation, were performed in order to increase the efficiency of the continuous ABE fermentation by decreasing the effect of butanol toxicity. The non-integrated and integrated butanol production systems were simulated and optimized based on a number of objectives such as maximizing the butanol productivity, butanol concentration, and butanol yield. In the optimization of complex industrial processes, where objectives are often conflicting, there exist numerous potentially-optimal solutions which are best obtained using multi-objective optimization (MOO). In this investigation, MOO was used to generate a set of alternative solutions, known as the Pareto domain. The Pareto domain allows to view very clearly the trade-offs existing between the various objective functions. In general, an increase in the butanol productivity resulted in a decrease of butanol yield and sugar conversion. To find the best solution within the Pareto domain, a ranking algorithm (Net Flow Method) was used to rank the solutions based on a set of relative weights and three preference thresholds. Comparing the best optimal solutions in each case study, it was clearly shown that integrating a recovery method with the ABE fermentation significantly increases the overall butanol concentration, butanol productivity, and sugar conversion, whereas butanol yield being microorganism-dependent, remains relatively constant.

ABE fermentation

Butanol

Multi-objective optimization

In-situ solvent recovery

Integrated fermentation

Net Flow Method

Vliv reforem v rámci Abenomiky na fiskální situaci Japonska / The impact of reforms of Abenomics on the fiscal situation of Japan

Starečková, Martina

January 2015

The thesis takes a look at the reforms of the current Prime Minister of Japan Shinzo Abe and his Cabinet, specifically it evaluates the impact of the second arrow of Abenomics on the sustainability of the critical state of public debt of Japan.