Design and analysis of a denial-of-service-resistant quality-of-service signaling protocol for MANETs

Quality-of-service (QoS) signaling protocols for mobile ad hoc networks (MANETs) are highly vulnerable to attacks. In particular, a class of denial-of-service (DoS) attacks can severely cripple network performance with relatively little effort expended by the attacker. A distributed QoS signaling protocol that is resistant to a class of DoS attacks on signaling is proposed. The signaling protocol provides QoS for real-time traffic and employs mechanisms at the medium access control (MAC) layer, which serve to avoid potential attacks on network resource usage. The key MAC layer mechanisms that provide support for the QoS signaling scheme include sensing of available bandwidth, traffic policing, and rate monitoring, all of which are performed in a distributed manner by the mobile nodes. The proposed signaling scheme achieves a compromise between signaling protocols that require the maintenance of per-flow state and those that are completely stateless. The signaling scheme scales gracefully in terms of the number of nodes and/or traffic flows in the MANET. The authors analyze the security properties of the protocol and present simulation results to demonstrate its resistance to DoS attacks.     

Byzantine robust trust establishment for mobile ad hoc networks

In a mobile ad hoc network (MANET), the nodes act both as traffic sources and as relays that forward packets from other nodes along multi-hop routes to the destination. Such networks are suited to situations in which a wireless infrastructure is unavailable, infeasible, or prohibitively expensive. However, the lack of a secure, trusted infrastructure in such networks make secure and reliable packet delivery very challenging. A given node acting as a relay may exhibit Byzantine behavior with respect to packet forwarding, i.e., arbitrary, deviant behavior, which disrupts packet transmission in the network. For example, a Byzantine node may arbitrarily choose to drop or misroute a certain percentage of the packets that are passed to it for forwarding to the next hop. In earlier work, we proposed a trust establishment framework, called Hermes, which enables a given node to determine the “trustworthiness” of other nodes with respect to reliable packet delivery by combining first-hand trust information obtained independently of other nodes and second-hand trust information obtained via recommendations from other nodes. A deficiency of the Hermes scheme is that a node can fail to detect certain types of Byzantine behavior, such as packet misforwarding directed at a particular source node. In this paper, we propose new mechanisms to make Hermes robust to Byzantine behavior and introduce a punishment policy that discourages selfish node behavior. We present simulation results that demonstrate the effectiveness of the proposed scheme in a variety of scenarios involving Byzantine nodes that are malicious both with respect to packet forwarding and trust propagation.     

Freeze-Dried Fennel Oleoresin Products Formed by Biopolymers: Storage Stability and Characterization

In this work, fennel oleoresin (FO) was encapsulated through freeze drying of the so produced emulsions within different edible biopolymeric carriers. Specifically, modified starch, maltodextrin, chitosan, and gum arabic were used as carriers both individually and in blends (binary and ternary ones). The freeze-dried FO products were characterized in terms of structure (X-ray diffraction (XRD) analysis), whereas their stability was studied by means of sorption isotherm analysis under various a _w. Moreover, the formation of complexes was evaluated through Fourier transform infrared spectroscopy (FTIR) technique and ζ-potential analysis. The verification of the encapsulation process was also conducted by applying FTIR technique. Results showed that the final products presented an amorphous character, whereas the sorption isotherms could be described adequately by the Guggenheim-Anderson-de Boer (GAB) model. FTIR technique proved to be effective to confirm both the formation of complexes and the presence of FO into the studied carriers, verifying thus the success of the process.     

Arabic Gum Mixtures as Encapsulating Agents of Freeze-Dried Fennel Oleoresin Products

The present study reports on the encapsulation of fennel oleoresin by freeze-drying method using binary and ternary mixtures of gum arabic (GA) combined with modified starch, maltodextrin, and chitosan. The encapsulation ability of the final mixtures was evaluated based on their microencapsulating efficiency and storage stability towards the main compounds of fennel oleoresin. The partial replacement of gum arabic with modified starch provided the greatest encapsulating mixture (GA–MS) in terms of storage stability, microencapsulating efficiency (74.88 %), and redispersibility (D _4,3?=?2.74 μm). The properties of the initial formed emulsions (emulsion mean diameter and stability) influenced the freeze-dried final products mainly in respect moisture content and redispersibility. GA in mixtures proved to be effective to encapsulate and protect fennel oleoresin compounds (fenchone, estragole, trans-anethole, and d-limonene) during storage.     

Energy RTD expenditures in the European union: Data gathering procedures and results towards a scientific reference system

Insights into the past Energy Research and Technology Development (ERTD) expenditures allows policy makers to better set priorities for current and future ERTD funding as well as to analyze the exact impact of ERTD investments to the development of energy technologies. However, despite numerous attempts in the past, there is currently no comprehensive, validated database that includes disaggregated data on public and private ERTD expenditures in the EU-27 for different technology groups. One of the main aims of the Scientific Reference System for New Energy Technologies and Energy End Use Efficiency (SRS NET & EEE) FP6 project is to enhance the availability, quality and completeness of data on public and private ERTD expenditures, disaggregated for energy technologies and energy end-use efficiency options in the EU-27. The aim of the paper is to outline the main data gathering procedures and results from the “SRS NET & EEE” project, as well as the related policy implication.     

Thermooxidative Stability of Fennel Oleoresin Microencapsulated in Blended Biopolymer Agents

In this work, the oxidative and thermal stabilities of 4 different encapsulating agents (chitosan [CH], modified starch [MS], gum arabic [GA], and maltodextrin [MD]) used in fennel oleoresin microencapsulation by the freeze‐drying technique were evaluated both individually and in blends (binary and ternary ones). The oxidative stability of the encapsulated products was assessed by gas chromatography/mass spectrometry analysis of the secondary oxidation volatiles along with the use of oxidation markers (peroxide value, PV), while a differential scanning calorimetery analysis was conducted. Gum arabic, both plain and its mixtures, exhibited the lowest protection against lipid oxidation, presenting high PVs. However, good microencapsulation efficiency along with the best oxidative stability in terms of PV and thermal stability indicated that the formulations of MS‐CH and MS‐MD‐CH could be suggested as alternative encapsulating agents.     

EU–MENA energy technology transfer under the CDM: Israel as a frontrunner?

The majority of the Middle East and North Africa (MENA) countries possess substantial potential for the implementation of CDM projects. Abatement of Greenhouse Gas (GHG) emissions can mainly be achieved through utilizing the abundant Renewable Energy Sources (RES) in the region and the implementation of Energy Efficiency (ENEF) measures. However, most of the MENA countries have a limited track record as regards CDM projects in the pipeline comparing to the major CDM-players, like Asia-Pacific regions and Latin America. In the above framework, this paper investigates the current status of CDM in the MENA region and the related perspectives for further diffusion of the CDM though the elaboration of a Strengths–Weaknesses–Opportunities and Threats (SWOT) Analysis. Particular emphasis is laid on the case of Israel, which seems to make an exception to the rule, since it hosts most projects in the region and dominates among the MENA countries.     

Activity of natural carotenoid preparations against the autoxidative deterioration of sunflower oil-in-water emulsions

The activity of natural carotenoid extracts against the autoxidative deterioration of sunflower oil-in-water emulsions was estimated in terms of primary (lipid hydroperoxides) and secondary (“off flavour” volatiles) oxidation products. At a concentration of 2 g l⁻¹, the tested carotenoids did not inhibit the production of hydroperoxides but they significantly retarded the formation of volatile aldehydes during the storage of simple tween-stabilised emulsions at 30 °C. In another series of experiments, several carotenoid extracts (paprika, annatto and marigold preparations) containing mainly polar carotenoids, added at an active concentration of 1 g l⁻¹, exerted a strong activity against hydroperoxides and TBARs during the accelerated oxidation (60 °C) of homogenised protein-based emulsions. On the contrary, carotene preparations rich in hydrophobic α- and β-carotenes and lycopene did not significantly differ from the control emulsion. Therefore, the carotenoid structure modulated their antioxidant effect, while concentration and emulsion structure may also affect carotenoid activity in protein dispersed systems.     

The potential role of renewable energy in Moldova

The European Union (EU) is developing an increasingly close relationship with Moldova, going beyond cooperation, to gradual economic integration and a deepening of political cooperation. This fact indicates that eventually the adoption of EU legislation in the energy sector is a necessity. Therefore, the provision of a clear picture of the country’s renewable energy potential is considered essential, bearing in mind the new EU Renewable Energy Directive, which sets a mandatory target of 20% of renewable energy sources by 2020 for each member state. The aim of this paper is to discuss the perspective of renewable energy in Moldova taking into account the current energy framework and to analyze, whether it is suitable to adopt similar methodologies and policy frameworks applied in other EU countries.